95 lines
2.9 KiB
Python
Executable file
95 lines
2.9 KiB
Python
Executable file
#!/usr/bin/env python3
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from datetime import timezone, datetime
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from numberdealers import parse_numberdealers
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import matplotlib.pyplot as plt
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import numpy as np
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def xy(messages):
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x = []
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y = []
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for msg in messages:
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# x.append(datetime.fromtimestamp(msg.create_at / 1000, timezone.utc))
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x.append(msg.create_at / 1000)
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y.append(msg.recognized_number)
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return x, y
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def find(xs, condition):
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for i, x in enumerate(xs):
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if condition(x):
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return i
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def abline(slope, intercept, point1_x, point2_x):
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"""Plot a line from slope and intercept"""
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axes = plt.gca()
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x_vals = np.array([point1_x, point2_x])
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y_vals = slope * x_vals + intercept
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plt.plot(x_vals, y_vals, linewidth=1, color='grey')
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def main():
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import sys
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if len(sys.argv) <= 2:
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print("Usage: plot_numberdealers.py <numberdealers.json> <numberdealers-ng.json>")
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return 1
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with open(sys.argv[1], encoding="utf-8") as fh:
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numbers_og, _errors = parse_numberdealers.parse(fh, parse_numberdealers.ErrorStyle.NUMBERDEALERS)
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with open(sys.argv[2], encoding="utf-8") as fh:
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numbers_ng, _errors = parse_numberdealers.parse(fh, parse_numberdealers.ErrorStyle.NUMBERDEALERS_NG)
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start_at_numberdealers_ng_number = 1
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start_of_current_slope = find(numbers_og, lambda msg: msg.create_at >= numbers_ng[start_at_numberdealers_ng_number].create_at)
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# a = (y2-y1) / (x2-x1)
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slope_og = (
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numbers_og[-1].recognized_number - numbers_og[start_of_current_slope].recognized_number
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) / (
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numbers_og[-1].create_at/1000 - numbers_og[start_of_current_slope].create_at/1000
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)
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# b = y - a x
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intercept_og = numbers_og[-1].recognized_number - slope_og * numbers_og[-1].create_at/1000
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slope_ng = (
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numbers_ng[-1].recognized_number - numbers_ng[start_at_numberdealers_ng_number].recognized_number
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) / (
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numbers_ng[-1].create_at/1000 - numbers_ng[start_at_numberdealers_ng_number].create_at/1000
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)
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intercept_ng = numbers_ng[-1].recognized_number - slope_ng * numbers_ng[-1].create_at/1000
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# a1 x + b1 = a2 x + b2
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# (a1 - a2) x = b2 - b1
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# x = (b2 - b1) / (a1 - a2)
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intercept_x = (intercept_ng - intercept_og) / (slope_og - slope_ng)
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intercept_y = slope_ng * intercept_x + intercept_ng
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fig, ax = plt.subplots(figsize=(15, 6))
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ax.plot(*xy(numbers_og))
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ax.plot(*xy(numbers_ng))
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abline(slope_og, intercept_og, numbers_og[-1].create_at/1000, intercept_x)
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abline(slope_ng, intercept_ng, numbers_ng[-1].create_at/1000, intercept_x)
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plt.margins(x=0)
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locs = np.append(
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np.linspace(numbers_og[0].create_at/1000, numbers_ng[0].create_at/1000, 6),
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[numbers_ng[-1].create_at/1000, intercept_x]
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)
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# func = lambda x: x < intercept_x
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# locs = np.append(locs[func(locs)][:-1], [intercept_x])
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labels = ["{:%Y-%m-%d}".format(datetime.fromtimestamp(x, timezone.utc)) for x in locs]
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labels[-2] = ""
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plt.xticks(locs, labels)
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plt.grid()
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# plt.show()
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plt.savefig("plot.png")
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return 0
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if __name__ == "__main__":
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import sys
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sys.exit(main())
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