18 lines
743 B
Python
18 lines
743 B
Python
import numpy as np
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def testcurve(x, frequency=10, peak_width=2, amplitude=20, bias=0):
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# 0 = pk - width
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# 2pi = pk + width
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# want peak at n*time == frequency
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nearest_peak = np.round(x / frequency, 0)
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# if not peak at 0 and within peak_width
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if nearest_peak > 0 and np.abs((x - nearest_peak * frequency)) < peak_width:
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# return sin that does one period within 2*peak_width
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return amplitude * np.sin(2*np.pi * (x - nearest_peak * frequency - peak_width) / (2*peak_width)) + bias
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else:
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return bias
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def get_testcurve(frequency=10, peak_width=2, amplitude=20, bias=0):
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return np.vectorize(lambda x: testcurve(x, frequency=frequency, peak_width=peak_width, amplitude=amplitude, bias=bias))
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