140 lines
4.5 KiB
Python
140 lines
4.5 KiB
Python
# -*- coding: utf-8 -*-
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"""
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In this example we create a subclass of PlotCurveItem for displaying a very large
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data set from an HDF5 file that does not fit in memory.
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The basic approach is to override PlotCurveItem.viewRangeChanged such that it
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reads only the portion of the HDF5 data that is necessary to display the visible
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portion of the data. This is further downsampled to reduce the number of samples
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being displayed.
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A more clever implementation of this class would employ some kind of caching
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to avoid re-reading the entire visible waveform at every update.
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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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import pyqtgraph as pg
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from pyqtgraph.Qt import QtCore, QtGui
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import numpy as np
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import h5py
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import sys, os
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if len(sys.argv) > 1:
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fileName = sys.argv[1]
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else:
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fileName = 'test.hdf5'
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if not os.path.isfile(fileName):
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print("No suitable HDF5 file found. Use createFile() to generate an example file.")
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os._exit(1)
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plt = pg.plot()
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plt.setWindowTitle('pyqtgraph example: HDF5 big data')
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plt.enableAutoRange(False, False)
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plt.setXRange(0, 500)
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class HDF5Plot(pg.PlotCurveItem):
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def __init__(self, *args, **kwds):
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self.hdf5 = None
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self.limit = 10000 # maximum number of samples to be plotted
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pg.PlotCurveItem.__init__(self, *args, **kwds)
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def setHDF5(self, data):
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self.hdf5 = data
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self.updateHDF5Plot()
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def viewRangeChanged(self):
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self.updateHDF5Plot()
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def updateHDF5Plot(self):
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if self.hdf5 is None:
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self.setData([])
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return
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vb = self.getViewBox()
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if vb is None:
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return # no ViewBox yet
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# Determine what data range must be read from HDF5
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xrange = vb.viewRange()[0]
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start = max(0,int(xrange[0])-1)
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stop = min(len(self.hdf5), int(xrange[1]+2))
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# Decide by how much we should downsample
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ds = int((stop-start) / self.limit) + 1
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if ds == 1:
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# Small enough to display with no intervention.
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visible = self.hdf5[start:stop]
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scale = 1
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else:
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# Here convert data into a down-sampled array suitable for visualizing.
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# Must do this piecewise to limit memory usage.
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samples = 1 + ((stop-start) // ds)
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visible = np.zeros(samples*2, dtype=self.hdf5.dtype)
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sourcePtr = start
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targetPtr = 0
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# read data in chunks of ~1M samples
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chunkSize = (1000000//ds) * ds
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while sourcePtr < stop-1:
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chunk = self.hdf5[sourcePtr:min(stop,sourcePtr+chunkSize)]
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sourcePtr += len(chunk)
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# reshape chunk to be integral multiple of ds
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chunk = chunk[:(len(chunk)//ds) * ds].reshape(len(chunk)//ds, ds)
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# compute max and min
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chunkMax = chunk.max(axis=1)
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chunkMin = chunk.min(axis=1)
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# interleave min and max into plot data to preserve envelope shape
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visible[targetPtr:targetPtr+chunk.shape[0]*2:2] = chunkMin
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visible[1+targetPtr:1+targetPtr+chunk.shape[0]*2:2] = chunkMax
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targetPtr += chunk.shape[0]*2
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visible = visible[:targetPtr]
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scale = ds * 0.5
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self.setData(visible) # update the plot
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self.setPos(start, 0) # shift to match starting index
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self.resetTransform()
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self.scale(scale, 1) # scale to match downsampling
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f = h5py.File(fileName, 'r')
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curve = HDF5Plot()
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curve.setHDF5(f['data'])
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plt.addItem(curve)
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def createFile(finalSize=2000000000):
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"""Create a large HDF5 data file for testing.
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Data consists of 1M random samples tiled through the end of the array.
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"""
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chunk = np.random.normal(size=1000000).astype(np.float32)
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f = h5py.File('test.hdf5', 'w')
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f.create_dataset('data', data=chunk, chunks=True, maxshape=(None,))
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data = f['data']
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for i in range(finalSize // (chunk.size * chunk.itemsize)):
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newshape = [data.shape[0] + chunk.shape[0]]
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data.resize(newshape)
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data[-chunk.shape[0]:] = chunk
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f.close()
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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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