Add a faster method for computing pseudoscatter
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@ -2311,14 +2311,62 @@ def invertQTransform(tr):
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raise Exception("Transform is not invertible.")
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raise Exception("Transform is not invertible.")
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return inv[0]
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return inv[0]
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def pseudoScatter(data, spacing=None, shuffle=True, bidir=False, method='exact'):
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"""Return an array of position values needed to make beeswarm or column scatter plots.
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def pseudoScatter(data, spacing=None, shuffle=True, bidir=False):
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Used for examining the distribution of values in an array.
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"""
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Used for examining the distribution of values in a set. Produces scattering as in beeswarm or column scatter plots.
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Given a list of x-values, construct a set of y-values such that an x,y scatter-plot
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Given an array of x-values, construct an array of y-values such that an x,y scatter-plot
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will not have overlapping points (it will look similar to a histogram).
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will not have overlapping points (it will look similar to a histogram).
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"""
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"""
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if method == 'exact':
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return _pseudoScatterExact(data, spacing=spacing, shuffle=shuffle, bidir=bidir)
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elif method == 'histogram':
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return _pseudoScatterHistogram(data, spacing=spacing, shuffle=shuffle, bidir=bidir)
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def _pseudoScatterHistogram(data, spacing=None, shuffle=True, bidir=False):
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"""Works by binning points into a histogram and spreading them out to fill the bin.
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Faster method, but can produce blocky results.
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"""
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inds = np.arange(len(data))
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if shuffle:
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np.random.shuffle(inds)
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data = data[inds]
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if spacing is None:
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spacing = 2.*np.std(data)/len(data)**0.5
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yvals = np.empty(len(data))
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dmin = data.min()
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dmax = data.max()
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nbins = int((dmax-dmin) / spacing) + 1
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bins = np.linspace(dmin, dmax, nbins)
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dx = bins[1] - bins[0]
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dbins = ((data - bins[0]) / dx).astype(int)
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binCounts = {}
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for i,j in enumerate(dbins):
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c = binCounts.get(j, -1) + 1
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binCounts[j] = c
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yvals[i] = c
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if bidir is True:
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for i in range(nbins):
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yvals[dbins==i] -= binCounts.get(i, 0) * 0.5
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return yvals[np.argsort(inds)] ## un-shuffle values before returning
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def _pseudoScatterExact(data, spacing=None, shuffle=True, bidir=False):
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"""Works by stacking points up one at a time, searching for the lowest position available at each point.
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This method produces nice, smooth results but can be prohibitively slow for large datasets.
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"""
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inds = np.arange(len(data))
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inds = np.arange(len(data))
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if shuffle:
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if shuffle:
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np.random.shuffle(inds)
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np.random.shuffle(inds)
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