adding a new daily_plot.py for review
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+78
-67
@@ -1,4 +1,8 @@
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#!/home/pi/BirdNET-Pi/birdnet/bin/python3
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import mysql.connector as sql
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import os
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import pandas as pd
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import seaborn as sns
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# import numpy as np
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@@ -7,82 +11,73 @@ from matplotlib.colors import LogNorm
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from datetime import datetime
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import textwrap
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BIRD_DB_PWD=os.getenv('DB_PWD')
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print(BIRD_DB_PWD)
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#Read database into Pandas dataframe
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df = pd.read_csv('~/BirdNET-Pi/BirdDB.txt', sep=';')
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db_connection = sql.connect(host='localhost',
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database='birds',
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user='birder',
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password='forms')
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#password = BIRD_DB_PASSWORD)
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db_cursor=db_connection.cursor(dictionary=True)
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db_cursor.execute('SELECT * FROM detections')
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table_rows = db_cursor.fetchall()
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df=pd.DataFrame(table_rows)
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#Convert Date and Time Fields to Panda's format
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df['Date']=pd.to_datetime(df['Date'])
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df['Time']=pd.to_datetime(df['Time'])
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df['Time']=pd.to_datetime(df['Time'], unit='ns')
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#Add round hours to dataframe
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df['Hour of Day'] = [r.hour for r in df.Time]
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#Create separate dataframes for separate locations
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df_jhb=df[df.Lat > -32]
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df_ec = df[df.Lat < -32]
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df_plt=df #Default to use the whole Dbase
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#Get todays readings for Joburg
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#Get todays readings
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now = datetime.now()
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df_jhb_today = df_jhb[df_jhb['Date']==now.strftime("%Y-%m-%d")]
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df_plt_today = df_plt[df_plt['Date']==now.strftime("%Y-%m-%d")]
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# Definition to start getting top N detections - work in process
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def filter_by_freq(df: pd.DataFrame, column: str, min_freq: int) -> pd.DataFrame:
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"""Filters the DataFrame based on the value frequency in the specified column.
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#Set number of species to report
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readings=10
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:param df: DataFrame to be filtered.
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:param column: Column name that should be frequency filtered.
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:param min_freq: Minimal value frequency for the row to be accepted.
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:return: Frequency filtered DataFrame.
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"""
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# Frequencies of each value in the column.
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freq = df[column].value_counts()
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# Select frequent values. Value is in the index.
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frequent_values = freq[freq >= min_freq].index
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# Return only rows with value frequency above threshold.
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return df[df[column].isin(frequent_values)]
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#Get top readings today
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min_valuecounts = 2
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jhb_gt_min = filter_by_freq (df_jhb_today,'Com_Name', min_valuecounts)
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jhb_gt_min_counts = jhb_gt_min['Com_Name'].value_counts()
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print(jhb_gt_min_counts)
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jhb_top10_today = (df_jhb_today['Com_Name'].value_counts()[:10])
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df_jhb_top10_today = df_jhb_today[df_jhb_today.Com_Name.isin(jhb_top10_today.index)]
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#Get bottom 10 today
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jhb_bot10_today=(df_jhb_today['Com_Name'].value_counts()[-10:])
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df_jhb_bot10_today = df_jhb_today[df_jhb_today.Com_Name.isin(jhb_bot10_today.index)]
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plt_top10_today = (df_plt_today['Com_Name'].value_counts()[:readings])
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df_plt_top10_today = df_plt_today[df_plt_today.Com_Name.isin(plt_top10_today.index)]
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#Set Palette for graphics
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pal = "Greens"
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#Set up plot axes and titles
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f, axs = plt.subplots(1, 2, figsize = (10, 4), gridspec_kw=dict(width_ratios=[3, 5]))
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plt.subplots_adjust(left=None, bottom=None, right=None, top=None, wspace=0, hspace=None)
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f, axs = plt.subplots(1, 3, figsize = (10, 4), gridspec_kw=dict(width_ratios=[3, 2, 5]))
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plt.subplots_adjust(left=None, bottom=None, right=None, top=None, wspace=0, hspace=0)
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#Generate frequency plot
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plot=sns.countplot(y='Com_Name', data = df_jhb_top10_today, palette = pal+"_r", order=pd.value_counts(df_jhb_top10_today['Com_Name']).iloc[:20].index, ax=axs[0])
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plot=sns.countplot(y='Com_Name', data = df_plt_top10_today, palette = pal+"_r", order=pd.value_counts(df_plt_top10_today['Com_Name']).iloc[:readings].index, ax=axs[0])
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#Try plot grid lines between bars - problem at the moment plots grid lines on bars - want between bars
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# plot.grid(True, axis='y')
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plot.set_yticklabels(['\n'.join(textwrap.wrap(ticklabel.get_text(),15)) for ticklabel in plot.get_yticklabels()])
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z=plot.get_ymajorticklabels()
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plot.set_yticklabels(['\n'.join(textwrap.wrap(ticklabel.get_text(),15)) for ticklabel in plot.get_yticklabels()], fontsize = 10)
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plot.set(ylabel=None)
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plot.set(xlabel="Detections")
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huw=df_plt_top10_today.groupby('Com_Name')['Confidence'].mean()
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plot = sns.boxenplot(x=df_plt_top10_today['Confidence']*100,color='Green', y=df_plt_top10_today['Com_Name'], ax=axs[1],order=pd.value_counts(df_plt_top10_today['Com_Name']).iloc[:readings].index)
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plot.set(xlabel="Confidence", ylabel=None,yticklabels=[])
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#Generate crosstab matrix for heatmap plot
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heat = pd.crosstab(df_jhb_top10_today['Com_Name'],df_jhb_top10_today['Hour of Day'])
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heat = pd.crosstab(df_plt_top10_today['Com_Name'],df_plt_top10_today['Hour of Day'])
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#Order heatmap Birds by frequency of occurrance
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heat.index = pd.CategoricalIndex(heat.index, categories = pd.value_counts(df_jhb_top10_today['Com_Name']).iloc[:10].index)
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heat.index = pd.CategoricalIndex(heat.index, categories = pd.value_counts(df_plt_top10_today['Com_Name']).iloc[:readings].index)
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heat.sort_index(level=0, inplace=True)
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@@ -91,7 +86,7 @@ heat_frame = pd.DataFrame(data=0, index=heat.index, columns = hours_in_day)
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heat=(heat+heat_frame).fillna(0)
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#Generatie heatmap plot
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plot = sns.heatmap(heat, norm=LogNorm(), annot=True, fmt="g", annot_kws={"fontsize":7}, cmap = pal , square = False, cbar=False, linewidths = 0.5, linecolor = "Grey", ax=axs[1], yticklabels = False)
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plot = sns.heatmap(heat, norm=LogNorm(), annot=True, annot_kws={"fontsize":7}, cmap = pal , square = False, cbar=False, linewidths = 0.5, linecolor = "Grey", ax=axs[2], yticklabels = False)
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# Set heatmap border
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for _, spine in plot.spines.items():
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@@ -100,55 +95,71 @@ for _, spine in plot.spines.items():
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plot.set(ylabel=None)
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plot.set(xlabel="Hour of Day")
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#Set combined plot layout and titles
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plt.tight_layout()
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# plt.tight_layout()
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f.subplots_adjust(top=0.9)
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plt.suptitle("Last Updated: "+ str(now.strftime("%B, %d at %T")))
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plt.suptitle("Last Updated: "+ str(now.strftime("%d %m %Y %H:%M")))
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#Save combined plot
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savename='/home/pi/BirdSongs/Extracted/Charts/Combo-'+str(now.strftime("%d-%m-%Y"))+'.png'
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plt.savefig(savename)
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#plt.show()
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plt.close()
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#Get bottom 10 today
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jhb_bot10_today=(df_jhb_today['Com_Name'].value_counts()[-10:])
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df_jhb_bot10_today = df_jhb_today[df_jhb_today.Com_Name.isin(jhb_bot10_today.index)]
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plt_bot10_today = (df_plt_today['Com_Name'].value_counts()[-readings:])
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df_plt_bot10_today = df_plt_today[df_plt_today.Com_Name.isin(plt_bot10_today.index)]
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#Set Palette for graphics
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pal = "Reds"
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#Set up plot axes and titles
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f, axs = plt.subplots(1, 2, figsize = (8, 4), gridspec_kw=dict(width_ratios=[3, 5]))
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f, axs = plt.subplots(1, 3, figsize = (10, 4), gridspec_kw=dict(width_ratios=[3, 2, 5]))
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plt.subplots_adjust(left=None, bottom=None, right=None, top=None, wspace=0, hspace=0)
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#Generate frequency plot
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plot=sns.countplot(y='Com_Name', data = df_jhb_bot10_today, palette = pal+"_r", order=pd.value_counts(df_jhb_bot10_today['Com_Name']).iloc[:10].index, ax=axs[0])
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plot.set_yticklabels(['\n'.join(textwrap.wrap(ticklabel.get_text(),17)) for ticklabel in plot.get_yticklabels()])
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plot.set(ylabel=None)
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plot.set(xlabel="no. of detections")
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#Generate crosstab matrix for heatmap plot
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heat = pd.crosstab(df_jhb_bot10_today['Com_Name'],df_jhb_bot10_today['Hour of Day'])
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plot=sns.countplot(y='Com_Name', data = df_plt_bot10_today, palette = pal+"_r", order=pd.value_counts(df_plt_bot10_today['Com_Name']).iloc[-readings:].index, ax=axs[0])
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#Try plot grid lines between bars - problem at the moment plots grid lines on bars - want between bars
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# plot.grid(True, axis='y')
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z=plot.get_ymajorticklabels()
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plot.set_yticklabels(['\n'.join(textwrap.wrap(ticklabel.get_text(),15)) for ticklabel in plot.get_yticklabels()], fontsize = 10)
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plot.set(ylabel=None)
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plot.set(xlabel="Detections")
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huw=df_plt_bot10_today.groupby('Com_Name')['Confidence'].mean()
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plot = sns.boxenplot(x=df_plt_bot10_today['Confidence']*100,color='Red', y=df_plt_bot10_today['Com_Name'], ax=axs[1],order=pd.value_counts(df_plt_bot10_today['Com_Name']).iloc[-readings:].index)
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plot.set(xlabel="Confidence", ylabel=None,yticklabels=[])
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#Generate crosstab matrix for heatmap plot
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heat = pd.crosstab(df_plt_bot10_today['Com_Name'],df_plt_bot10_today['Hour of Day'])
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#Order heatmap Birds by frequency of occurrance
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heat.index = pd.CategoricalIndex(heat.index, categories = pd.value_counts(df_jhb_bot10_today['Com_Name']).iloc[:10].index)
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heat.index = pd.CategoricalIndex(heat.index, categories = pd.value_counts(df_plt_bot10_today['Com_Name']).iloc[-readings:].index)
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heat.sort_index(level=0, inplace=True)
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hours_in_day = pd.Series(data = range(0,24))
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heat_frame = pd.DataFrame(data=0, index=heat.index, columns = hours_in_day)
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heat=(heat+heat_frame).fillna(0)
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#Generate heatmap plot
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plot = sns.heatmap(heat, norm=LogNorm(), annot=True, annot_kws={"fontsize":7}, cmap = pal , square = False, cbar=False, linewidths = 0.5, linecolor = "Grey", ax=axs[1], yticklabels = False)
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#Generatie heatmap plot
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plot = sns.heatmap(heat, norm=LogNorm(), annot=True, annot_kws={"fontsize":7}, cmap = pal , square = False, cbar=False, linewidths = 0.5, linecolor = "Grey", ax=axs[2], yticklabels = False)
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# Set heatmap border
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for _, spine in plot.spines.items():
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spine.set_visible(True)
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plot.set(ylabel=None)
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#Set combined plot layout and titles
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plt.tight_layout()
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f.subplots_adjust(top=0.9)
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plt.suptitle("Bottom 10 Detected: "+ str(now.strftime("%d-%h-%Y %H:%M")))
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plot.set(ylabel=None)
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plot.set(xlabel="Hour of Day")
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#Set combined plot layout and titles
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# plt.tight_layout()
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f.subplots_adjust(top=0.9)
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plt.suptitle("Last Updated: "+ str(now.strftime("%d %m %Y %H:%M")))
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#Save combined plot
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savename='/home/pi/BirdSongs/Extracted/Charts/Combo2-'+str(now.strftime("%d-%m-%Y"))+'.png'
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plt.savefig(savename)
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#plt.show()
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plt.close()
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