[2437] | 1 | #!/usr/bin/env python |
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| 2 | # -*- coding: utf-8 -*- |
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| 3 | |
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| 4 | # this must come first |
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| 5 | from __future__ import print_function, unicode_literals, division |
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| 6 | |
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| 7 | # standard library imports |
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| 8 | from argparse import ArgumentParser |
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| 9 | import os |
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| 10 | import os.path |
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| 11 | import datetime as dt |
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| 12 | import numpy as np |
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| 13 | |
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| 14 | # Application library imports |
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[2460] | 15 | from libconso import * |
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[2437] | 16 | |
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| 17 | |
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| 18 | ######################################## |
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| 19 | class DataDict(dict): |
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| 20 | #--------------------------------------- |
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| 21 | def __init__(self): |
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| 22 | self = {} |
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| 23 | |
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| 24 | #--------------------------------------- |
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| 25 | def init_range(self, date_beg, date_end, inc=1): |
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| 26 | """ |
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| 27 | """ |
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| 28 | delta = date_end - date_beg |
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| 29 | |
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| 30 | (deb, fin) = (0, delta.days+1) |
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| 31 | |
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| 32 | dates = (date_beg + dt.timedelta(days=i) |
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| 33 | for i in xrange(deb, fin, inc)) |
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| 34 | |
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| 35 | for date in dates: |
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| 36 | self.add_item(date) |
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| 37 | |
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| 38 | #--------------------------------------- |
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| 39 | def fill_data(self, filein): |
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| 40 | """ |
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| 41 | """ |
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| 42 | try: |
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| 43 | data = np.genfromtxt( |
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| 44 | filein, |
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| 45 | skip_header=1, |
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| 46 | converters={ |
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| 47 | 0: string_to_date, |
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| 48 | 1: string_to_float, |
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| 49 | 2: string_to_percent, |
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| 50 | 3: string_to_percent, |
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| 51 | 4: string_to_float, |
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| 52 | 5: string_to_float, |
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| 53 | 6: string_to_float, |
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| 54 | 7: string_to_float, |
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| 55 | }, |
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| 56 | missing_values="nan", |
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| 57 | ) |
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| 58 | except Exception as rc: |
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| 59 | print("Empty file {}:\n{}".format(filein, rc)) |
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| 60 | exit(1) |
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| 61 | |
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| 62 | for date, conso, real_use, theo_use, \ |
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| 63 | run_mean, pen_mean, run_std, pen_std in data: |
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| 64 | if date in self: |
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| 65 | self.add_item( |
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| 66 | date, |
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| 67 | conso, |
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| 68 | real_use, |
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| 69 | theo_use, |
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| 70 | run_mean, |
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| 71 | pen_mean, |
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| 72 | run_std, |
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| 73 | pen_std, |
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| 74 | ) |
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| 75 | self[date].fill() |
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| 76 | |
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| 77 | #--------------------------------------- |
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| 78 | def add_item(self, date, conso=np.nan, |
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| 79 | real_use=np.nan, theo_use=np.nan, |
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| 80 | run_mean=np.nan, pen_mean=np.nan, |
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| 81 | run_std=np.nan, pen_std=np.nan): |
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| 82 | """ |
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| 83 | """ |
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| 84 | self[date] = Conso(date, conso, real_use, theo_use, |
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| 85 | run_mean, pen_mean, run_std, pen_std) |
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| 86 | |
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| 87 | #--------------------------------------- |
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| 88 | def theo_equation(self): |
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| 89 | """ |
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| 90 | """ |
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| 91 | (dates, theo_uses) = \ |
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| 92 | zip(*((item.date, item.theo_use) |
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| 93 | for item in self.get_items_in_full_range())) |
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| 94 | |
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| 95 | (idx_min, idx_max) = \ |
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| 96 | (np.nanargmin(theo_uses), np.nanargmax(theo_uses)) |
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| 97 | |
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| 98 | x1 = dates[idx_min].timetuple().tm_yday |
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| 99 | x2 = dates[idx_max].timetuple().tm_yday |
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| 100 | |
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| 101 | y1 = theo_uses[idx_min] |
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| 102 | y2 = theo_uses[idx_max] |
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| 103 | |
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| 104 | m = np.array([ |
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| 105 | [x1, 1.], |
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| 106 | [x2, 1.] |
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| 107 | ], dtype="float") |
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| 108 | n = np.array([ |
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| 109 | y1, |
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| 110 | y2 |
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| 111 | ], dtype="float") |
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| 112 | |
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| 113 | try: |
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| 114 | (a, b) = np.linalg.solve(m, n) |
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| 115 | except np.linalg.linalg.LinAlgError: |
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| 116 | (a, b) = (None, None) |
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| 117 | |
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| 118 | if a and b: |
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| 119 | for date in dates: |
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| 120 | self[date].theo_equ = date.timetuple().tm_yday*a + b |
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| 121 | |
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| 122 | #--------------------------------------- |
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| 123 | def get_items_in_range(self, date_beg, date_end, inc=1): |
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| 124 | """ |
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| 125 | """ |
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| 126 | items = (item for item in self.itervalues() |
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| 127 | if item.date >= date_beg and |
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| 128 | item.date <= date_end) |
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| 129 | items = sorted(items, key=lambda item: item.date) |
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| 130 | |
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| 131 | return items[::inc] |
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| 132 | |
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| 133 | #--------------------------------------- |
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| 134 | def get_items_in_full_range(self, inc=1): |
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| 135 | """ |
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| 136 | """ |
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| 137 | items = (item for item in self.itervalues()) |
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| 138 | items = sorted(items, key=lambda item: item.date) |
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| 139 | |
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| 140 | return items[::inc] |
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| 141 | |
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| 142 | #--------------------------------------- |
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| 143 | def get_items(self, inc=1): |
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| 144 | """ |
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| 145 | """ |
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| 146 | items = (item for item in self.itervalues() |
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| 147 | if item.isfilled()) |
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| 148 | items = sorted(items, key=lambda item: item.date) |
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| 149 | |
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| 150 | return items[::inc] |
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| 151 | |
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| 152 | |
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| 153 | class Conso(object): |
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| 154 | #--------------------------------------- |
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| 155 | def __init__(self, date, conso=np.nan, |
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| 156 | real_use=np.nan, theo_use=np.nan, |
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| 157 | run_mean=np.nan, pen_mean=np.nan, |
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| 158 | run_std=np.nan, pen_std=np.nan): |
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| 159 | self.date = date |
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| 160 | self.conso = conso |
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| 161 | self.real_use = real_use |
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| 162 | self.theo_use = theo_use |
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| 163 | self.theo_equ = np.nan |
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| 164 | self.run_mean = run_mean |
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| 165 | self.pen_mean = pen_mean |
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| 166 | self.run_std = run_std |
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| 167 | self.pen_std = pen_std |
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| 168 | self.filled = False |
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| 169 | |
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| 170 | #--------------------------------------- |
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| 171 | def __repr__(self): |
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| 172 | return "{:.2f} ({:.2%})".format(self.conso, self.real_use) |
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| 173 | |
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| 174 | #--------------------------------------- |
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| 175 | def isfilled(self): |
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| 176 | return self.filled |
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| 177 | |
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| 178 | #--------------------------------------- |
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| 179 | def fill(self): |
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| 180 | self.filled = True |
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| 181 | |
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| 182 | |
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| 183 | ######################################## |
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| 184 | def plot_init(): |
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| 185 | paper_size = np.array([29.7, 21.0]) |
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| 186 | fig, (ax_conso, ax_jobs) = plt.subplots( |
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| 187 | nrows=2, |
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| 188 | ncols=1, |
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| 189 | sharex=True, |
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| 190 | squeeze=True, |
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| 191 | figsize=(paper_size/2.54) |
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| 192 | ) |
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| 193 | ax_theo = ax_conso.twinx() |
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| 194 | |
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| 195 | return fig, ax_conso, ax_theo, ax_jobs |
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| 196 | |
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| 197 | |
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| 198 | ######################################## |
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| 199 | def plot_data(ax_conso, ax_theo, ax_jobs, xcoord, dates, |
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| 200 | consos, theo_uses, real_uses, theo_equs, |
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| 201 | run_mean, pen_mean, run_std, pen_std): |
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| 202 | """ |
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| 203 | """ |
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| 204 | line_style = "-" |
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| 205 | if args.full: |
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| 206 | line_width = 0.05 |
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| 207 | else: |
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| 208 | # line_style = "+-" |
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| 209 | line_width = 0.1 |
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| 210 | |
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[2460] | 211 | ax_conso.bar( |
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| 212 | xcoord, consos, width=1, align="center", color="linen", |
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| 213 | linewidth=line_width, label="conso (heures)" |
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| 214 | ) |
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[2437] | 215 | |
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[2460] | 216 | ax_theo.plot( |
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| 217 | xcoord, theo_equs, "--", |
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| 218 | color="firebrick", linewidth=0.5, |
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| 219 | solid_capstyle="round", solid_joinstyle="round" |
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| 220 | ) |
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| 221 | ax_theo.plot( |
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| 222 | xcoord, theo_uses, line_style, color="firebrick", |
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| 223 | linewidth=1, markersize=8, |
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| 224 | solid_capstyle="round", solid_joinstyle="round", |
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| 225 | label="conso\nthéorique (%)" |
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| 226 | ) |
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| 227 | ax_theo.plot( |
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| 228 | xcoord, real_uses, line_style, color="forestgreen", |
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| 229 | linewidth=1, markersize=8, |
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| 230 | solid_capstyle="round", solid_joinstyle="round", |
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| 231 | label="conso\nréelle (%)" |
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| 232 | ) |
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[2437] | 233 | |
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| 234 | line_width = 0. |
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| 235 | width = 1.05 |
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| 236 | |
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[2460] | 237 | ax_jobs.bar( |
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| 238 | xcoord, run_mean, width=width, align="center", |
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| 239 | # yerr=run_std/2, ecolor="green", |
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| 240 | color="lightgreen", linewidth=line_width, |
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| 241 | antialiased=True, label="jobs running" |
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| 242 | ) |
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| 243 | ax_jobs.bar( |
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| 244 | xcoord, pen_mean, bottom=run_mean, width=width, align="center", |
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| 245 | # yerr=pen_std/2, ecolor="darkred", |
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| 246 | color="firebrick", linewidth=line_width, |
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| 247 | antialiased=True, label="jobs pending" |
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| 248 | ) |
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[2437] | 249 | |
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| 250 | |
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| 251 | ######################################## |
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[2460] | 252 | def plot_config(fig, ax_conso, ax_theo, xcoord, dates, title, |
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| 253 | conso_per_day): |
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[2437] | 254 | """ |
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| 255 | """ |
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| 256 | # ... Config axes ... |
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| 257 | # ------------------- |
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| 258 | # 1) Range |
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[2448] | 259 | conso_max = np.nanmax(consos) |
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| 260 | if args.max: |
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| 261 | ymax = conso_max # + conso_max*.1 |
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| 262 | else: |
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| 263 | ymax = 2. * conso_per_day |
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[2437] | 264 | |
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[2448] | 265 | if conso_max > ymax: |
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| 266 | ax_conso.annotate( |
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| 267 | "{:.2e} heures".format(conso_max), |
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| 268 | ha="left", |
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| 269 | va="top", |
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| 270 | fontsize="xx-small", |
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| 271 | bbox=dict(boxstyle="round", fc="w", ec="0.5", color="gray",), |
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[2449] | 272 | # xy=(np.nanargmax(consos)+1.2, ymax), |
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[2448] | 273 | xy=(np.nanargmax(consos)+1.2, ymax*0.9), |
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| 274 | textcoords="axes fraction", |
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| 275 | xytext=(0.01, 0.8), |
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| 276 | arrowprops=dict( |
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| 277 | arrowstyle="->", |
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| 278 | shrinkA=0, |
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| 279 | shrinkB=0, |
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| 280 | color="gray", |
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| 281 | ), |
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| 282 | ) |
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| 283 | |
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[2437] | 284 | xmin, xmax = xcoord[0]-1, xcoord[-1]+1 |
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| 285 | ax_conso.set_xlim(xmin, xmax) |
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[2448] | 286 | ax_conso.set_ylim(0., ymax) |
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[2437] | 287 | ax_theo.set_ylim(0., 100) |
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| 288 | |
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| 289 | # 2) Ticks labels |
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| 290 | (date_beg, date_end) = (dates[0], dates[-1]) |
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| 291 | date_fmt = "{:%d-%m}" |
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| 292 | |
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| 293 | if date_end - date_beg > dt.timedelta(weeks=9): |
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| 294 | maj_xticks = [x for x, d in zip(xcoord, dates) |
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| 295 | if d.weekday() == 0] |
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| 296 | maj_xlabs = [date_fmt.format(d) for d in dates |
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| 297 | if d.weekday() == 0] |
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| 298 | else: |
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| 299 | maj_xticks = [x for x, d in zip(xcoord, dates)] |
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| 300 | maj_xlabs = [date_fmt.format(d) for d in dates] |
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| 301 | |
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| 302 | ax_conso.ticklabel_format(axis="y", style="sci", scilimits=(0, 0)) |
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| 303 | |
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| 304 | ax_jobs.set_xticks(xcoord, minor=True) |
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| 305 | ax_jobs.set_xticks(maj_xticks, minor=False) |
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[2460] | 306 | ax_jobs.set_xticklabels( |
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| 307 | maj_xlabs, rotation="vertical", size="x-small" |
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| 308 | ) |
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[2437] | 309 | |
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| 310 | for ax, y, label in ( |
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| 311 | (ax_conso, conso_per_day, "heures"), |
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| 312 | (ax_jobs, conso_per_day / 24, "cÅurs"), |
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| 313 | ): |
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| 314 | yticks = list(ax.get_yticks()) |
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| 315 | yticks.append(y) |
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| 316 | ax.set_yticks(yticks) |
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| 317 | ax.axhline(y=y, color="blue", alpha=0.5, |
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| 318 | label="conso journaliÚre\nidéale ({})".format(label)) |
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| 319 | |
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[2448] | 320 | ax_theo.spines["right"].set_color("firebrick") |
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| 321 | ax_theo.tick_params(colors="firebrick") |
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| 322 | ax_theo.yaxis.label.set_color("firebrick") |
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| 323 | |
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[2437] | 324 | for x, d in zip(xcoord, dates): |
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| 325 | if d.weekday() == 0 and d.hour == 0: |
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| 326 | for ax in (ax_conso, ax_jobs): |
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| 327 | ax.axvline(x=x, color="black", alpha=0.5, |
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| 328 | linewidth=0.5, linestyle=":") |
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| 329 | |
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| 330 | # 3) Define axes title |
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| 331 | for ax, label in ( |
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| 332 | (ax_conso, "heures"), |
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| 333 | (ax_theo, "%"), |
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| 334 | (ax_jobs, "cÅurs"), |
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| 335 | ): |
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| 336 | ax.set_ylabel(label, fontweight="bold") |
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| 337 | ax.tick_params(axis="y", labelsize="small") |
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| 338 | |
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| 339 | # 4) Define plot size |
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| 340 | fig.subplots_adjust( |
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| 341 | left=0.08, |
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| 342 | bottom=0.09, |
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| 343 | right=0.93, |
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| 344 | top=0.93, |
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| 345 | hspace=0.1, |
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| 346 | wspace=0.1, |
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| 347 | ) |
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| 348 | |
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| 349 | # ... Main title and legend ... |
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| 350 | # ----------------------------- |
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| 351 | fig.suptitle(title, fontweight="bold", size="large") |
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| 352 | for ax, loc in ( |
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| 353 | (ax_conso, "upper left"), |
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| 354 | (ax_theo, "upper right"), |
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| 355 | (ax_jobs, "upper left"), |
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| 356 | ): |
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| 357 | ax.legend(loc=loc, fontsize="x-small", frameon=False) |
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| 358 | |
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| 359 | |
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| 360 | ######################################## |
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| 361 | def get_arguments(): |
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| 362 | parser = ArgumentParser() |
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| 363 | parser.add_argument("-v", "--verbose", action="store_true", |
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| 364 | help="verbose mode") |
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| 365 | parser.add_argument("-f", "--full", action="store_true", |
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| 366 | help="plot the whole period") |
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| 367 | parser.add_argument("-i", "--increment", action="store", |
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| 368 | type=int, default=1, dest="inc", |
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| 369 | help="sampling increment") |
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| 370 | parser.add_argument("-r", "--range", action="store", nargs=2, |
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| 371 | type=string_to_date, |
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| 372 | help="date range: ssaa-mm-jj ssaa-mm-jj") |
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| 373 | parser.add_argument("-m", "--max", action="store_true", |
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| 374 | help="plot with y_max = allocation") |
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| 375 | parser.add_argument("-s", "--show", action="store_true", |
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| 376 | help="interactive mode") |
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| 377 | parser.add_argument("-d", "--dods", action="store_true", |
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| 378 | help="copy output on dods") |
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| 379 | |
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| 380 | return parser.parse_args() |
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| 381 | |
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| 382 | |
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| 383 | ######################################## |
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| 384 | if __name__ == '__main__': |
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| 385 | |
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| 386 | # .. Initialization .. |
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| 387 | # ==================== |
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| 388 | # ... Command line arguments ... |
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| 389 | # ------------------------------ |
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| 390 | args = get_arguments() |
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| 391 | if args.verbose: |
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| 392 | print(args) |
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| 393 | |
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| 394 | # ... Turn interactive mode off ... |
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| 395 | # --------------------------------- |
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| 396 | if not args.show: |
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| 397 | import matplotlib |
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| 398 | matplotlib.use('Agg') |
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| 399 | |
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| 400 | import matplotlib.pyplot as plt |
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| 401 | # from matplotlib.backends.backend_pdf import PdfPages |
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| 402 | |
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| 403 | if not args.show: |
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| 404 | plt.ioff() |
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| 405 | |
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| 406 | # ... Files and directories ... |
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| 407 | # ----------------------------- |
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[2460] | 408 | project_name, DIR, OUT = parse_config("bin/config.ini") |
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| 409 | |
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[2437] | 410 | (file_param, file_utheo, file_data) = \ |
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| 411 | get_input_files(DIR["SAVEDATA"], |
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| 412 | [OUT["PARAM"], OUT["UTHEO"], OUT["BILAN"]]) |
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| 413 | |
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| 414 | img_name = "bilan_jobs" |
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| 415 | today = os.path.basename(file_param).strip(OUT["PARAM"]) |
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| 416 | |
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| 417 | if args.verbose: |
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| 418 | print(file_param) |
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| 419 | print(file_utheo) |
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| 420 | print(file_data) |
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| 421 | print(img_name) |
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| 422 | print(today) |
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| 423 | |
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| 424 | # .. Get project info .. |
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| 425 | # ====================== |
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[2464] | 426 | projet = Project(project_name) |
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[2460] | 427 | projet.fill_data(file_param) |
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| 428 | projet.get_date_init(file_utheo) |
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[2437] | 429 | |
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| 430 | # .. Fill in data .. |
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| 431 | # ================== |
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| 432 | # ... Initialization ... |
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| 433 | # ---------------------- |
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| 434 | bilan = DataDict() |
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[2460] | 435 | bilan.init_range(projet.date_init, projet.deadline) |
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[2437] | 436 | # ... Extract data from file ... |
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| 437 | # ------------------------------ |
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| 438 | bilan.fill_data(file_data) |
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| 439 | # ... Compute theoratical use from known data ... |
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| 440 | # ------------------------------------------------ |
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| 441 | bilan.theo_equation() |
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| 442 | |
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| 443 | # .. Extract data depending on C.L. arguments .. |
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| 444 | # ============================================== |
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| 445 | if args.full: |
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| 446 | selected_items = bilan.get_items_in_full_range(args.inc) |
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| 447 | elif args.range: |
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| 448 | selected_items = bilan.get_items_in_range( |
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| 449 | args.range[0], args.range[1], args.inc |
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| 450 | ) |
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| 451 | else: |
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| 452 | selected_items = bilan.get_items(args.inc) |
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| 453 | |
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| 454 | # .. Compute data to be plotted .. |
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| 455 | # ================================ |
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| 456 | nb_items = len(selected_items) |
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| 457 | |
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| 458 | xcoord = np.linspace(1, nb_items, num=nb_items) |
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| 459 | dates = [item.date for item in selected_items] |
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| 460 | |
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| 461 | cumul = np.array([item.conso for item in selected_items], |
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| 462 | dtype=float) |
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| 463 | consos = [] |
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| 464 | consos.append(cumul[0]) |
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| 465 | consos[1:nb_items] = cumul[1:nb_items] - cumul[0:nb_items-1] |
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| 466 | consos = np.array(consos, dtype=float) |
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| 467 | |
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[2460] | 468 | conso_per_day = projet.alloc / projet.days |
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[2437] | 469 | |
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| 470 | theo_uses = np.array([100.*item.theo_use for item in selected_items], |
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| 471 | dtype=float) |
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| 472 | real_uses = np.array([100.*item.real_use for item in selected_items], |
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| 473 | dtype=float) |
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| 474 | theo_equs = np.array([100.*item.theo_equ for item in selected_items], |
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| 475 | dtype=float) |
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| 476 | |
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| 477 | run_mean = np.array([item.run_mean for item in selected_items], |
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| 478 | dtype=float) |
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| 479 | pen_mean = np.array([item.pen_mean for item in selected_items], |
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| 480 | dtype=float) |
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| 481 | run_std = np.array([item.run_std for item in selected_items], |
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| 482 | dtype=float) |
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| 483 | pen_std = np.array([item.pen_std for item in selected_items], |
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| 484 | dtype=float) |
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| 485 | |
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| 486 | # .. Plot stuff .. |
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| 487 | # ================ |
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| 488 | # ... Initialize figure ... |
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| 489 | # ------------------------- |
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| 490 | (fig, ax_conso, ax_theo, ax_jobs) = plot_init() |
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| 491 | |
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| 492 | # ... Plot data ... |
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| 493 | # ----------------- |
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| 494 | plot_data(ax_conso, ax_theo, ax_jobs, xcoord, dates, |
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| 495 | consos, theo_uses, real_uses, theo_equs, |
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| 496 | run_mean, pen_mean, run_std, pen_std) |
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| 497 | |
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| 498 | # ... Tweak figure ... |
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| 499 | # -------------------- |
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[2448] | 500 | title = "{} : Conso globale et suivi des jobs " \ |
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| 501 | "(moyenne journaliÚre)\n({:%d/%m/%Y} - {:%d/%m/%Y})".format( |
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[2460] | 502 | projet.project.upper(), |
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| 503 | projet.date_init, |
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| 504 | projet.deadline |
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[2448] | 505 | ) |
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[2437] | 506 | |
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[2460] | 507 | plot_config( |
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| 508 | fig, ax_conso, ax_theo, xcoord, dates, title, conso_per_day |
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| 509 | ) |
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[2437] | 510 | |
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| 511 | # ... Save figure ... |
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| 512 | # ------------------- |
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| 513 | img_in = os.path.join(DIR["PLOT"], "{}.pdf".format(img_name)) |
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| 514 | img_out = os.path.join(DIR["SAVEPLOT"], |
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| 515 | "{}_{}.pdf".format(img_name, today)) |
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| 516 | |
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[2460] | 517 | plot_save(img_in, img_out, title, DIR) |
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[2437] | 518 | |
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| 519 | # ... Publish figure on dods ... |
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| 520 | # ------------------------------ |
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| 521 | if args.dods: |
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[2460] | 522 | dods_cp(img_in, DIR) |
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[2437] | 523 | |
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| 524 | if args.show: |
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| 525 | plt.show() |
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| 526 | |
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| 527 | exit(0) |
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| 528 | |
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