Refactor to standardized naming conventions for PR#1
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parent
5e6bb15d1c
commit
0a616243cc
46
bluesleep.py
46
bluesleep.py
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@ -156,17 +156,17 @@ def flush_old_raw_data(tick_time):
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global sleep_data
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global sleep_data
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for data_type in sleep_data:
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for data_type in sleep_data:
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s_datum = sleep_data[data_type]
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s_data = sleep_data[data_type]
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periods = s_datum['periods']
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periods = s_datum['periods']
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cleaned_raw_data = []
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cleaned_raw_data = []
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for raw_datum in s_datum['raw_data']:
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for raw_datum in s_data['raw_data']:
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datum_age = tick_time - raw_datum['time']
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datum_age = tick_time - raw_datum['time']
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if datum_age < max(periods):
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if datum_age < max(periods):
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cleaned_raw_data.append(raw_datum)
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cleaned_raw_data.append(raw_datum)
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s_datum['raw_data'] = cleaned_raw_data
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s_data['raw_data'] = cleaned_raw_data
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def average_raw_data(tick_time):
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def average_raw_data(tick_time):
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@ -176,10 +176,10 @@ def average_raw_data(tick_time):
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csv_out = {'time': timestamp }
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csv_out = {'time': timestamp }
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for data_type in sleep_data:
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for data_type in sleep_data:
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s_datum = sleep_data[data_type]
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s_data = sleep_data[data_type]
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period_averages_dict = {'time': timestamp}
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period_averages_dict = {'time': timestamp}
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periods = s_datum['periods']
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periods = s_data['periods']
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value_name = s_datum['value_name']
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value_name = s_data['value_name']
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flush_old_raw_data(tick_time)
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flush_old_raw_data(tick_time)
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@ -202,7 +202,7 @@ def average_raw_data(tick_time):
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csv_out[data_type + str(period_seconds)] = zero_to_nan(period_data_average)
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csv_out[data_type + str(period_seconds)] = zero_to_nan(period_data_average)
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s_datum['averaged_data'].append(period_averages_dict)
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s_data['averaged_data'].append(period_averages_dict)
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write_csv(csv_out)
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write_csv(csv_out)
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@ -246,25 +246,25 @@ def update_graph_data():
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global graph_data
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global graph_data
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for data_type in sleep_data:
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for data_type in sleep_data:
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s_datum = sleep_data[data_type] # Re-referenced to shorten name
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s_data = sleep_data[data_type] # Re-referenced to shorten name
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avg_datum = s_datum['averaged_data']
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avg_data = s_data['averaged_data']
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if len(avg_datum) > 1:
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if len(avg_data) > 1:
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g_datum = graph_data[data_type] # Re-referenced to short name
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g_data = graph_data[data_type] # Re-referenced to short name
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data_periods = s_datum['periods']
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data_periods = s_data['periods']
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starting_index = max([(len(g_dataum['time']) - 1), 0])
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starting_index = max([(len(g_data['time']) - 1), 0])
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ending_index = len(avg_datum) - 1
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ending_index = len(avg_data) - 1
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# Re-referenced to shorten name
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# Re-referenced to shorten name
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sleep_data_range = avg_datum[starting_index:ending_index]
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sleep_data_range = avg_data[starting_index:ending_index]
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for sleep_datum in sleep_data_range:
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for sleep_datum in sleep_data_range:
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g_datum['time'].append(sleep_datum['time'])
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g_data['time'].append(sleep_datum['time'])
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for period in data_periods:
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for period in data_periods:
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if g_datum['data'][period] != 'nan':
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if g_data['data'][period] != 'nan':
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g_datum['data'][period].append(sleep_datum[period])
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g_data['data'][period].append(sleep_datum[period])
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def graph_animation(i):
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def graph_animation(i):
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@ -284,15 +284,15 @@ def graph_animation(i):
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break
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break
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for data_type in sleep_data:
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for data_type in sleep_data:
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s_datum = sleep_data[data_type]
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s_data = sleep_data[data_type]
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g_datum = graph_data[data_type]
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g_data = graph_data[data_type]
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if len(g_datum['time']) > 0:
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if len(g_datum['time']) > 0:
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plotflag = True
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plotflag = True
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data_periods = sleep_data[data_type]['periods']
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data_periods = sleep_data[data_type]['periods']
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for period in data_periods:
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for period in data_periods:
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axis_label = "{} {} sec".format(s_datum['value_name'], period)
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axis_label = "{} {} sec".format(s_data['value_name'], period)
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graph_axes.plot(g_datum['time'],
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graph_axes.plot(g_data['time'],
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g_datum['data'][period],
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g_data['data'][period],
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label=axis_label)
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label=axis_label)
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if plotflag:
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if plotflag:
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