Improved performance for remote plotting:
- reduced cost of transferring arrays between processes (pickle is too slow) - avoid unnecessary synchronous calls Added RemoteSpeedTest example
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63
examples/MultiPlotSpeedTest.py
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63
examples/MultiPlotSpeedTest.py
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@ -0,0 +1,63 @@
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#!/usr/bin/python
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# -*- coding: utf-8 -*-
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## Add path to library (just for examples; you do not need this)
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import initExample
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from pyqtgraph.Qt import QtGui, QtCore
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import numpy as np
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import pyqtgraph as pg
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from pyqtgraph.ptime import time
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#QtGui.QApplication.setGraphicsSystem('raster')
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app = QtGui.QApplication([])
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#mw = QtGui.QMainWindow()
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#mw.resize(800,800)
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p = pg.plot()
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#p.setRange(QtCore.QRectF(0, -10, 5000, 20))
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p.setLabel('bottom', 'Index', units='B')
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nPlots = 10
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#curves = [p.plot(pen=(i,nPlots*1.3)) for i in range(nPlots)]
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curves = [pg.PlotCurveItem(pen=(i,nPlots*1.3)) for i in range(nPlots)]
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for c in curves:
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p.addItem(c)
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rgn = pg.LinearRegionItem([1,100])
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p.addItem(rgn)
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data = np.random.normal(size=(53,5000/nPlots))
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ptr = 0
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lastTime = time()
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fps = None
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count = 0
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def update():
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global curve, data, ptr, p, lastTime, fps, nPlots, count
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count += 1
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#print "---------", count
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for i in range(nPlots):
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curves[i].setData(i+data[(ptr+i)%data.shape[0]])
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#print " setData done."
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ptr += nPlots
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now = time()
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dt = now - lastTime
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lastTime = now
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if fps is None:
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fps = 1.0/dt
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else:
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s = np.clip(dt*3., 0, 1)
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fps = fps * (1-s) + (1.0/dt) * s
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p.setTitle('%0.2f fps' % fps)
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#app.processEvents() ## force complete redraw for every plot
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timer = QtCore.QTimer()
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timer.timeout.connect(update)
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timer.start(0)
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## Start Qt event loop unless running in interactive mode.
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if __name__ == '__main__':
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import sys
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if (sys.flags.interactive != 1) or not hasattr(QtCore, 'PYQT_VERSION'):
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QtGui.QApplication.instance().exec_()
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78
examples/RemoteSpeedTest.py
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78
examples/RemoteSpeedTest.py
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@ -0,0 +1,78 @@
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# -*- coding: utf-8 -*-
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"""
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This example demonstrates the use of RemoteGraphicsView to improve performance in
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applications with heavy load. It works by starting a second process to handle
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all graphics rendering, thus freeing up the main process to do its work.
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In this example, the update() function is very expensive and is called frequently.
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After update() generates a new set of data, it can either plot directly to a local
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plot (bottom) or remotely via a RemoteGraphicsView (top), allowing speed comparison
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between the two cases. IF you have a multi-core CPU, it should be obvious that the
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remote case is much faster.
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"""
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import initExample ## Add path to library (just for examples; you do not need this)
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from pyqtgraph.Qt import QtGui, QtCore
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import pyqtgraph as pg
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import pyqtgraph.widgets.RemoteGraphicsView
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import numpy as np
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app = pg.mkQApp()
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view = pg.widgets.RemoteGraphicsView.RemoteGraphicsView()
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pg.setConfigOptions(antialias=True) ## this will be expensive for the local plot
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view.pg.setConfigOptions(antialias=True) ## prettier plots at no cost to the main process!
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label = QtGui.QLabel()
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rcheck = QtGui.QCheckBox('plot remote')
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rcheck.setChecked(True)
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lcheck = QtGui.QCheckBox('plot local')
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lplt = pg.PlotWidget()
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layout = pg.LayoutWidget()
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layout.addWidget(rcheck)
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layout.addWidget(lcheck)
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layout.addWidget(label)
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layout.addWidget(view, row=1, col=0, colspan=3)
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layout.addWidget(lplt, row=2, col=0, colspan=3)
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layout.resize(800,800)
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layout.show()
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## Create a PlotItem in the remote process that will be displayed locally
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rplt = view.pg.PlotItem()
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rplt._setProxyOptions(deferGetattr=True) ## speeds up access to rplt.plot
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view.setCentralItem(rplt)
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lastUpdate = pg.ptime.time()
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avgFps = 0.0
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def update():
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global check, label, plt, lastUpdate, avgFps, rpltfunc
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data = np.random.normal(size=(10000,50)).sum(axis=1)
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data += 5 * np.sin(np.linspace(0, 10, data.shape[0]))
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if rcheck.isChecked():
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rplt.plot(data, clear=True, _callSync='off') ## We do not expect a return value.
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## By turning off callSync, we tell
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## the proxy that it does not need to
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## wait for a reply from the remote
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## process.
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if lcheck.isChecked():
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lplt.plot(data, clear=True)
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now = pg.ptime.time()
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fps = 1.0 / (now - lastUpdate)
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lastUpdate = now
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avgFps = avgFps * 0.8 + fps * 0.2
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label.setText("Generating %0.2f fps" % avgFps)
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timer = QtCore.QTimer()
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timer.timeout.connect(update)
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timer.start(0)
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## Start Qt event loop unless running in interactive mode or using pyside.
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if __name__ == '__main__':
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import sys
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if (sys.flags.interactive != 1) or not hasattr(QtCore, 'PYQT_VERSION'):
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QtGui.QApplication.instance().exec_()
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('Dock widgets', 'dockarea.py'),
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('Console', 'ConsoleWidget.py'),
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('Histograms', 'histogram.py'),
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('Remote Plotting', 'RemoteSpeedTest.py'),
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('GraphicsItems', OrderedDict([
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('Scatter Plot', 'ScatterPlot.py'),
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#('PlotItem', 'PlotItem.py'),
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app = pg.QtGui.QApplication([])
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print "\n=================\nStart QtProcess"
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import sys
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if (sys.flags.interactive != 1):
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print " (not interactive; remote process will exit immediately.)"
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proc = mp.QtProcess()
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d1 = proc.transfer(np.random.normal(size=1000))
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d2 = proc.transfer(np.random.normal(size=1000))
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import os, sys, time, multiprocessing, re
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from processes import ForkedProcess
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from remoteproxy import ExitError
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from remoteproxy import ClosedError
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class CanceledError(Exception):
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"""Raised when the progress dialog is canceled during a processing operation."""
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@ -152,7 +152,7 @@ class Parallelize(object):
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n = ch.processRequests()
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if n > 0:
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waitingChildren += 1
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except ExitError:
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except ClosedError:
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#print ch.childPid, 'process finished'
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rem.append(ch)
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if self.showProgress:
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from remoteproxy import RemoteEventHandler, ExitError, NoResultError, LocalObjectProxy, ObjectProxy
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from remoteproxy import RemoteEventHandler, ClosedError, NoResultError, LocalObjectProxy, ObjectProxy
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import subprocess, atexit, os, sys, time, random, socket, signal
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import cPickle as pickle
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import multiprocessing.connection
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__all__ = ['Process', 'QtProcess', 'ForkedProcess', 'ExitError', 'NoResultError']
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__all__ = ['Process', 'QtProcess', 'ForkedProcess', 'ClosedError', 'NoResultError']
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class Process(RemoteEventHandler):
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"""
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@ -100,7 +100,7 @@ def startEventLoop(name, port, authkey):
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try:
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HANDLER.processRequests() # exception raised when the loop should exit
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time.sleep(0.01)
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except ExitError:
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except ClosedError:
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break
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@ -225,7 +225,7 @@ class ForkedProcess(RemoteEventHandler):
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try:
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self.processRequests() # exception raised when the loop should exit
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time.sleep(0.01)
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except ExitError:
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except ClosedError:
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break
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except:
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print "Error occurred in forked event loop:"
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@ -267,11 +267,11 @@ class RemoteQtEventHandler(RemoteEventHandler):
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def processRequests(self):
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try:
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RemoteEventHandler.processRequests(self)
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except ExitError:
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except ClosedError:
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from pyqtgraph.Qt import QtGui, QtCore
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QtGui.QApplication.instance().quit()
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self.timer.stop()
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#raise
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#raise SystemExit
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class QtProcess(Process):
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"""
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def processRequests(self):
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try:
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Process.processRequests(self)
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except ExitError:
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except ClosedError:
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self.timer.stop()
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def startQtEventLoop(name, port, authkey):
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import os, __builtin__, time, sys, traceback, weakref
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import cPickle as pickle
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import numpy as np
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class ExitError(Exception):
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class ClosedError(Exception):
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"""Raised when an event handler receives a request to close the connection
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or discovers that the connection has been closed."""
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pass
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class NoResultError(Exception):
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"""Raised when a request for the return value of a remote call fails
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because the call has not yet returned."""
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pass
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Returns the number of events processed.
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"""
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if self.exited:
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raise ExitError()
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raise ClosedError()
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numProcessed = 0
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while self.conn.poll():
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try:
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self.handleRequest()
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numProcessed += 1
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except ExitError:
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except ClosedError:
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self.exited = True
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raise
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except IOError as err:
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@ -108,14 +113,20 @@ class RemoteEventHandler(object):
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Blocks until a request is available."""
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result = None
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try:
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cmd, reqId, optStr = self.conn.recv() ## args, kwds are double-pickled to ensure this recv() call never fails
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except EOFError:
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cmd, reqId, nByteMsgs, optStr = self.conn.recv() ## args, kwds are double-pickled to ensure this recv() call never fails
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except EOFError, IOError:
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## remote process has shut down; end event loop
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raise ExitError()
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except IOError:
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raise ExitError()
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raise ClosedError()
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#print os.getpid(), "received request:", cmd, reqId
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## read byte messages following the main request
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byteData = []
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for i in range(nByteMsgs):
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try:
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byteData.append(self.conn.recv_bytes())
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except EOFError, IOError:
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raise ClosedError()
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try:
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if cmd == 'result' or cmd == 'error':
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@ -137,17 +148,36 @@ class RemoteEventHandler(object):
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obj = opts['obj']
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fnargs = opts['args']
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fnkwds = opts['kwds']
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## If arrays were sent as byte messages, they must be re-inserted into the
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## arguments
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if len(byteData) > 0:
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for i,arg in enumerate(fnargs):
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if isinstance(arg, tuple) and len(arg) > 0 and arg[0] == '__byte_message__':
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ind = arg[1]
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dtype, shape = arg[2]
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fnargs[i] = np.fromstring(byteData[ind], dtype=dtype).reshape(shape)
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for k,arg in fnkwds.items():
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if isinstance(arg, tuple) and len(arg) > 0 and arg[0] == '__byte_message__':
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ind = arg[1]
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dtype, shape = arg[2]
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fnkwds[k] = np.fromstring(byteData[ind], dtype=dtype).reshape(shape)
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if len(fnkwds) == 0: ## need to do this because some functions do not allow keyword arguments.
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#print obj, fnargs
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result = obj(*fnargs)
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else:
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result = obj(*fnargs, **fnkwds)
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elif cmd == 'getObjValue':
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result = opts['obj'] ## has already been unpickled into its local value
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returnType = 'value'
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elif cmd == 'transfer':
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result = opts['obj']
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returnType = 'proxy'
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elif cmd == 'transferArray':
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## read array data from next message:
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result = np.fromstring(byteData[0], dtype=opts['dtype']).reshape(opts['shape'])
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returnType = 'proxy'
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elif cmd == 'import':
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name = opts['module']
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fromlist = opts.get('fromlist', [])
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@ -201,7 +231,7 @@ class RemoteEventHandler(object):
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## (more importantly, do not call any code that would
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## normally be invoked at exit)
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else:
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raise ExitError()
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raise ClosedError()
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@ -216,7 +246,7 @@ class RemoteEventHandler(object):
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except:
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self.send(request='error', reqId=reqId, callSync='off', opts=dict(exception=None, excString=excStr))
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def send(self, request, opts=None, reqId=None, callSync='sync', timeout=10, returnType=None, **kwds):
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def send(self, request, opts=None, reqId=None, callSync='sync', timeout=10, returnType=None, byteData=None, **kwds):
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"""Send a request or return packet to the remote process.
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Generally it is not necessary to call this method directly; it is for internal use.
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(The docstring has information that is nevertheless useful to the programmer
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@ -235,6 +265,9 @@ class RemoteEventHandler(object):
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opts Extra arguments sent to the remote process that determine the way
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the request will be handled (see below)
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returnType 'proxy', 'value', or 'auto'
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byteData If specified, this is a list of objects to be sent as byte messages
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to the remote process.
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This is used to send large arrays without the cost of pickling.
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========== ====================================================================
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Description of request strings and options allowed for each:
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@ -312,7 +345,9 @@ class RemoteEventHandler(object):
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if returnType is not None:
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opts['returnType'] = returnType
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#print "send", opts
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#print os.getpid(), "send request:", request, reqId, opts
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## double-pickle args to ensure that at least status and request ID get through
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try:
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optStr = pickle.dumps(opts)
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@ -322,9 +357,19 @@ class RemoteEventHandler(object):
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print "======================================="
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raise
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request = (request, reqId, optStr)
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nByteMsgs = 0
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if byteData is not None:
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nByteMsgs = len(byteData)
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## Send primary request
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request = (request, reqId, nByteMsgs, optStr)
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self.conn.send(request)
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## follow up by sending byte messages
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if byteData is not None:
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for obj in byteData: ## Remote process _must_ be prepared to read the same number of byte messages!
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self.conn.send_bytes(obj)
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if callSync == 'off':
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return
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@ -345,10 +390,10 @@ class RemoteEventHandler(object):
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## raises NoResultError if the result is not available yet
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#print self.results.keys(), os.getpid()
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if reqId not in self.results:
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#self.readPipe()
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try:
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self.processRequests()
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except ExitError:
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except ClosedError: ## even if remote connection has closed, we may have
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## received new data during this call to processRequests()
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pass
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if reqId not in self.results:
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raise NoResultError()
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@ -393,17 +438,33 @@ class RemoteEventHandler(object):
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def callObj(self, obj, args, kwds, **opts):
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opts = opts.copy()
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args = list(args)
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## Decide whether to send arguments by value or by proxy
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noProxyTypes = opts.pop('noProxyTypes', None)
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if noProxyTypes is None:
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noProxyTypes = self.proxyOptions['noProxyTypes']
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autoProxy = opts.pop('autoProxy', self.proxyOptions['autoProxy'])
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autoProxy = opts.pop('autoProxy', self.proxyOptions['autoProxy'])
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if autoProxy is True:
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args = tuple([self.autoProxy(v, noProxyTypes) for v in args])
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args = [self.autoProxy(v, noProxyTypes) for v in args]
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for k, v in kwds.iteritems():
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opts[k] = self.autoProxy(v, noProxyTypes)
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return self.send(request='callObj', opts=dict(obj=obj, args=args, kwds=kwds), **opts)
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byteMsgs = []
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## If there are arrays in the arguments, send those as byte messages.
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## We do this because pickling arrays is too expensive.
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for i,arg in enumerate(args):
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if arg.__class__ == np.ndarray:
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args[i] = ("__byte_message__", len(byteMsgs), (arg.dtype, arg.shape))
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byteMsgs.append(arg)
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for k,v in kwds.items():
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if v.__class__ == np.ndarray:
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kwds[k] = ("__byte_message__", len(byteMsgs), (v.dtype, v.shape))
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byteMsgs.append(v)
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return self.send(request='callObj', opts=dict(obj=obj, args=args, kwds=kwds), byteData=byteMsgs, **opts)
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def registerProxy(self, proxy):
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ref = weakref.ref(proxy, self.deleteProxy)
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@ -421,6 +482,10 @@ class RemoteEventHandler(object):
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Transfer an object by value to the remote host (the object must be picklable)
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and return a proxy for the new remote object.
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"""
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if obj.__class__ is np.ndarray:
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opts = {'dtype': obj.dtype, 'shape': obj.shape}
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return self.send(request='transferArray', opts=opts, byteData=[obj], **kwds)
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else:
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return self.send(request='transfer', opts=dict(obj=obj), **kwds)
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def autoProxy(self, obj, noProxyTypes):
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@ -453,6 +518,8 @@ class Request(object):
|
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If block is True, wait until the result has arrived or *timeout* seconds passes.
|
||||
If the timeout is reached, raise NoResultError. (use timeout=None to disable)
|
||||
If block is False, raise NoResultError immediately if the result has not arrived yet.
|
||||
|
||||
If the process's connection has closed before the result arrives, raise ClosedError.
|
||||
"""
|
||||
|
||||
if self.gotResult:
|
||||
@ -464,6 +531,8 @@ class Request(object):
|
||||
if block:
|
||||
start = time.time()
|
||||
while not self.hasResult():
|
||||
if self.proc.exited:
|
||||
raise ClosedError()
|
||||
time.sleep(0.005)
|
||||
if timeout >= 0 and time.time() - start > timeout:
|
||||
print "Request timed out:", self.description
|
||||
|
@ -18,6 +18,8 @@ class RemoteGraphicsView(QtGui.QWidget):
|
||||
def __init__(self, parent=None, *args, **kwds):
|
||||
self._img = None
|
||||
self._imgReq = None
|
||||
self._sizeHint = (640,480) ## no clue why this is needed, but it seems to be the default sizeHint for GraphicsView.
|
||||
## without it, the widget will not compete for space against another GraphicsView.
|
||||
QtGui.QWidget.__init__(self)
|
||||
self._proc = mp.QtProcess()
|
||||
self.pg = self._proc._import('pyqtgraph')
|
||||
@ -26,12 +28,18 @@ class RemoteGraphicsView(QtGui.QWidget):
|
||||
self._view = rpgRemote.Renderer(*args, **kwds)
|
||||
self._view._setProxyOptions(deferGetattr=True)
|
||||
self.setFocusPolicy(self._view.focusPolicy())
|
||||
self.setSizePolicy(QtGui.QSizePolicy.Expanding, QtGui.QSizePolicy.Expanding)
|
||||
self.setMouseTracking(True)
|
||||
|
||||
shmFileName = self._view.shmFileName()
|
||||
self.shmFile = open(shmFileName, 'r')
|
||||
self.shm = mmap.mmap(self.shmFile.fileno(), mmap.PAGESIZE, mmap.MAP_SHARED, mmap.PROT_READ)
|
||||
|
||||
self._view.sceneRendered.connect(mp.proxy(self.remoteSceneChanged))
|
||||
self._view.sceneRendered.connect(mp.proxy(self.remoteSceneChanged)) #, callSync='off'))
|
||||
## Note: we need synchronous signals
|
||||
## even though there is no return value--
|
||||
## this informs the renderer that it is
|
||||
## safe to begin rendering again.
|
||||
|
||||
for method in ['scene', 'setCentralItem']:
|
||||
setattr(self, method, getattr(self._view, method))
|
||||
@ -41,8 +49,12 @@ class RemoteGraphicsView(QtGui.QWidget):
|
||||
self._view.resize(self.size(), _callSync='off')
|
||||
return ret
|
||||
|
||||
def sizeHint(self):
|
||||
return QtCore.QSize(*self._sizeHint)
|
||||
|
||||
def remoteSceneChanged(self, data):
|
||||
w, h, size = data
|
||||
#self._sizeHint = (whint, hhint)
|
||||
if self.shm.size != size:
|
||||
self.shm.close()
|
||||
self.shm = mmap.mmap(self.shmFile.fileno(), size, mmap.MAP_SHARED, mmap.PROT_READ)
|
||||
@ -82,7 +94,17 @@ class RemoteGraphicsView(QtGui.QWidget):
|
||||
ev.accept()
|
||||
return QtGui.QWidget.keyEvent(self, ev)
|
||||
|
||||
def enterEvent(self, ev):
|
||||
self._view.enterEvent(ev.type(), _callSync='off')
|
||||
return QtGui.QWidget.enterEvent(self, ev)
|
||||
|
||||
def leaveEvent(self, ev):
|
||||
self._view.leaveEvent(ev.type(), _callSync='off')
|
||||
return QtGui.QWidget.leaveEvent(self, ev)
|
||||
|
||||
def remoteProcess(self):
|
||||
"""Return the remote process handle. (see multiprocess.remoteproxy.RemoteEventHandler)"""
|
||||
return self._proc
|
||||
|
||||
class Renderer(GraphicsView):
|
||||
|
||||
@ -126,6 +148,8 @@ class Renderer(GraphicsView):
|
||||
def renderView(self):
|
||||
if self.img is None:
|
||||
## make sure shm is large enough and get its address
|
||||
if self.width() == 0 or self.height() == 0:
|
||||
return
|
||||
size = self.width() * self.height() * 4
|
||||
if size > self.shm.size():
|
||||
self.shm.resize(size)
|
||||
@ -168,5 +192,14 @@ class Renderer(GraphicsView):
|
||||
GraphicsView.keyEvent(self, QtGui.QKeyEvent(typ, mods, text, autorep, count))
|
||||
return ev.accepted()
|
||||
|
||||
def enterEvent(self, typ):
|
||||
ev = QtCore.QEvent(QtCore.QEvent.Type(typ))
|
||||
return GraphicsView.enterEvent(self, ev)
|
||||
|
||||
def leaveEvent(self, typ):
|
||||
ev = QtCore.QEvent(QtCore.QEvent.Type(typ))
|
||||
return GraphicsView.leaveEvent(self, ev)
|
||||
|
||||
|
||||
|
||||
|
Loading…
Reference in New Issue
Block a user