def make_calendar(year, month, firstweekday="Mon"): firstweekday = list(day_abbrs).index(firstweekday) calendar = Calendar(firstweekday=firstweekday) month_days = [ None if not day else str(day) for day in calendar.itermonthdays(year, month) ] month_weeks = len(month_days)//7 workday = "linen" weekend = "lightsteelblue" def weekday(date): return (date.weekday() - firstweekday) % 7 def pick_weekdays(days): return [ days[i % 7] for i in range(firstweekday, firstweekday+7) ] day_names = pick_weekdays(day_abbrs) week_days = pick_weekdays([workday]*5 + [weekend]*2) source = ColumnDataSource(data=dict( days = list(day_names)*month_weeks, weeks = sum([ [str(week)]*7 for week in range(month_weeks) ], []), month_days = month_days, day_backgrounds = sum([week_days]*month_weeks, []), )) holidays = [ (date, summary.replace("(US-OPM)", "").strip()) for (date, summary) in us_holidays if date.year == year and date.month == month and "(US-OPM)" in summary ] holidays_source = ColumnDataSource(data=dict( holidays_days = [ day_names[weekday(date)] for date, _ in holidays ], holidays_weeks = [ str((weekday(date.replace(day=1)) + date.day) // 7) for date, _ in holidays ], month_holidays = [ summary for _, summary in holidays ], )) xdr = FactorRange(factors=list(day_names)) ydr = FactorRange(factors=list(reversed([ str(week) for week in range(month_weeks) ]))) x_scale, y_scale = CategoricalScale(), CategoricalScale() plot = Plot(x_range=xdr, y_range=ydr, x_scale=x_scale, y_scale=y_scale, plot_width=300, plot_height=300, outline_line_color=None) plot.title.text = month_names[month] plot.title.text_font_size = "16px" plot.title.text_color = "darkolivegreen" plot.title.offset = 25 plot.min_border_left = 0 plot.min_border_bottom = 5 rect = Rect(x="days", y="weeks", width=0.9, height=0.9, fill_color="day_backgrounds", line_color="silver") plot.add_glyph(source, rect) rect = Rect(x="holidays_days", y="holidays_weeks", width=0.9, height=0.9, fill_color="pink", line_color="indianred") rect_renderer = plot.add_glyph(holidays_source, rect) text = Text(x="days", y="weeks", text="month_days", text_align="center", text_baseline="middle") plot.add_glyph(source, text) xaxis = CategoricalAxis() xaxis.major_label_text_font_size = "11px" xaxis.major_label_standoff = 0 xaxis.major_tick_line_color = None xaxis.axis_line_color = None plot.add_layout(xaxis, 'above') hover_tool = HoverTool(renderers=[rect_renderer], tooltips=[("Holiday", "@month_holidays")]) plot.tools.append(hover_tool) return plot
def make_calendar(year, month, firstweekday="Mon"): firstweekday = list(day_abbrs).index(firstweekday) calendar = Calendar(firstweekday=firstweekday) month_days = [ None if not day else str(day) for day in calendar.itermonthdays(year, month) ] month_weeks = len(month_days)//7 workday = "linen" weekend = "lightsteelblue" def weekday(date): return (date.weekday() - firstweekday) % 7 def pick_weekdays(days): return [ days[i % 7] for i in range(firstweekday, firstweekday+7) ] day_names = pick_weekdays(day_abbrs) week_days = pick_weekdays([workday]*5 + [weekend]*2) source = ColumnDataSource(data=dict( days = list(day_names)*month_weeks, weeks = sum([ [str(week)]*7 for week in range(month_weeks) ], []), month_days = month_days, day_backgrounds = sum([week_days]*month_weeks, []), )) holidays = [ (date, summary.replace("(US-OPM)", "").strip()) for (date, summary) in us_holidays if date.year == year and date.month == month and "(US-OPM)" in summary ] holidays_source = ColumnDataSource(data=dict( holidays_days = [ day_names[weekday(date)] for date, _ in holidays ], holidays_weeks = [ str((weekday(date.replace(day=1)) + date.day) // 7) for date, _ in holidays ], month_holidays = [ summary for _, summary in holidays ], )) xdr = FactorRange(factors=list(day_names)) ydr = FactorRange(factors=list(reversed([ str(week) for week in range(month_weeks) ]))) x_scale, y_scale = CategoricalScale(), CategoricalScale() plot = Plot(x_range=xdr, y_range=ydr, x_scale=x_scale, y_scale=y_scale, plot_width=300, plot_height=300, outline_line_color=None) plot.title.text = month_names[month] plot.title.text_font_size = "12pt" plot.title.text_color = "darkolivegreen" plot.title.offset = 25 plot.min_border_left = 0 plot.min_border_bottom = 5 rect = Rect(x="days", y="weeks", width=0.9, height=0.9, fill_color="day_backgrounds", line_color="silver") plot.add_glyph(source, rect) rect = Rect(x="holidays_days", y="holidays_weeks", width=0.9, height=0.9, fill_color="pink", line_color="indianred") rect_renderer = plot.add_glyph(holidays_source, rect) text = Text(x="days", y="weeks", text="month_days", text_align="center", text_baseline="middle") plot.add_glyph(source, text) xaxis = CategoricalAxis() xaxis.major_label_text_font_size = "8pt" xaxis.major_label_standoff = 0 xaxis.major_tick_line_color = None xaxis.axis_line_color = None plot.add_layout(xaxis, 'above') hover_tool = HoverTool(renderers=[rect_renderer], tooltips=[("Holiday", "@month_holidays")]) plot.tools.append(hover_tool) return plot
def make_calendar(sp500_data_lst, djia_data_lst, nasdaq_data_lst, twitter_data_lst, holiday_lst, nyt_data_lst, approval_data_lst, generic_dem_lst, generic_rep_lst, plot_wid, plot_ht, year, month, firstweekday="Sun"): firstweekday = list(day_abbrs).index(firstweekday) calendar = Calendar(firstweekday=firstweekday) month_days = [ None if not day else str(day) for day in calendar.itermonthdays(year, month) ] month_weeks = len(month_days) // 7 workday = "linen" weekend = "lightsteelblue" def weekday(date): return (date.weekday() - firstweekday) % 7 def pick_weekdays(days): return [days[i % 7] for i in range(firstweekday, firstweekday + 7)] day_names = pick_weekdays(day_abbrs) week_days = pick_weekdays([workday] * 5 + [weekend] * 2) source = ColumnDataSource(data=dict( days=list(day_names) * month_weeks, weeks=sum([[str(week)] * 7 for week in range(month_weeks)], []), month_days=month_days, day_backgrounds=['white'] * len(month_days), )) djia_data = [(dj_date, DJIA) for (dj_date, DJIA) in djia_data_lst if dj_date.year == year and dj_date.month == month] nasdaq_data = [(nas_date, NASDAQCOM) for (nas_date, NASDAQCOM) in nasdaq_data_lst if nas_date.year == year and nas_date.month == month] sp500_data = [(sp500_date, SP500) for (sp500_date, SP500) in sp500_data_lst if sp500_date.year == year and sp500_date.month == month] holidays = [(holiday_date, Holiday) for (holiday_date, Holiday) in holiday_lst if holiday_date.year == year and holiday_date.month == month] twitter_data = [ (twitter_date, topics) for (twitter_date, topics) in twitter_data_lst if twitter_date.year == year and twitter_date.month == month ] nyt_data = [(nyt_date, headlines) for (nyt_date, headlines) in nyt_data_lst if nyt_date.year == year and nyt_date.month == month] approval_data = [ (approval_date, approve_estimate) for (approval_date, approve_estimate) in approval_data_lst if approval_date.year == year and approval_date.month == month ] approval_data.sort() generic_dem = [(generic_date, dem_estimate) for (generic_date, dem_estimate) in generic_dem_lst if generic_date.year == year and generic_date.month == month ] generic_dem.sort() generic_rep = [(generic_date, rep_estimate) for (generic_date, rep_estimate) in generic_rep_lst if generic_date.year == year and generic_date.month == month ] generic_rep.sort() colors_djia = [DJIA for _, DJIA in djia_data] colors_sp500 = [SP500 for _, SP500 in sp500_data] colors_nasdaq = [NASDAQCOM for _, NASDAQCOM in nasdaq_data] for i in range(len(colors_djia) - 1): avg = np.mean([colors_djia[i], colors_sp500[i], colors_nasdaq[i]]) if 0 < avg <= 11000: colors_djia[i] = '#E52700' elif 11000 < avg <= 11100: colors_djia[i] = '#E33A00' elif 11100 < avg <= 11200: colors_djia[i] = '#E14C00' elif 11200 < avg <= 11300: colors_djia[i] = '#DF5E00' elif 11300 < avg <= 11400: colors_djia[i] = '#DD6F00' elif 11400 < avg <= 11500: colors_djia[i] = '#DB8000' elif 11500 < avg <= 11600: colors_djia[i] = '#D99100' elif 11600 < avg <= 11700: colors_djia[i] = '#D7A100' elif 11700 < avg <= 11800: colors_djia[i] = '#D5B100' elif 11800 < avg <= 11900: colors_djia[i] = '#D3C100' elif 11900 < avg <= 12000: colors_djia[i] = '#D1D000' elif 12000 < avg <= 12100: colors_djia[i] = '#BECF00' elif 12200 < avg <= 12300: colors_djia[i] = '#ABCD00' elif 12300 < avg <= 12400: colors_djia[i] = '#99CB00' elif 12400 < avg <= 12500: colors_djia[i] = '#87C900' elif 12500 < avg <= 12600: colors_djia[i] = '#75C700' elif 12500 < avg <= 12600: colors_djia[i] = '#64C500' else: colors_djia[i] = '#53C300' holiday_source = ColumnDataSource(data=dict( month_djia=[DJIA for _, DJIA in djia_data], month_nasdaq=[NASDAQCOM for _, NASDAQCOM in nasdaq_data], month_sp500=[SP500 for _, SP500 in sp500_data], month_twitter=[topics for _, topics in twitter_data], month_holidays=[Holiday for _, Holiday in holidays], nyt_days=[day_names[weekday(nyt_date)] for nyt_date, _ in nyt_data], nyt_weeks=['0'] + [ str((weekday(nyt_date.replace(day=1)) + nyt_date.day) // 7) for nyt_date, _ in nyt_data ], month_nyt=[headlines for _, headlines in nyt_data], month_approval=[ approve_estimate for _, approve_estimate in approval_data ], month_generic_dem=[dem_estimate for _, dem_estimate in generic_dem], month_generic_rep=[rep_estimate for _, rep_estimate in generic_rep], day_backgrounds=colors_djia, )) xdr = FactorRange(factors=list(day_names)) ydr = FactorRange( factors=list(reversed([str(week) for week in range(month_weeks)]))) x_scale, y_scale = CategoricalScale(), CategoricalScale() plot = Plot(x_range=xdr, y_range=ydr, x_scale=x_scale, y_scale=y_scale, plot_width=plot_wid, plot_height=plot_ht) plot.title.text = month_names[month] + " " + str(year) plot.title.text_font_size = "14pt" plot.title.text_color = "black" plot.title.offset = 25 plot.min_border_left = 5 plot.min_border_top = 5 plot.min_border_bottom = 190 plot.border_fill_color = "white" plot.background_fill_alpha = 0.5 plot.border_fill_alpha = 0.3 rect = Rect(x="days", y="weeks", width=0.9, height=0.9, fill_color="day_backgrounds", line_color="silver") plot.add_glyph(source, rect) rect = Rect(x="nyt_days", y="nyt_weeks", width=0.9, fill_color="day_backgrounds", height=0.9) rect_renderer = plot.add_glyph(holiday_source, rect) text = Text(x="days", y="weeks", text="month_days", text_align="center", text_baseline="middle") plot.add_glyph(source, text) xaxis = CategoricalAxis() xaxis.major_label_text_font_size = "10pt" xaxis.major_label_standoff = 0 xaxis.major_tick_line_color = None xaxis.axis_line_color = None plot.add_layout(xaxis, 'above') TOOLTIPS = """ <div style="height:100%; max-width:300px; min-width:200px;background-color: aliceblue; position:relative;"> <div> <span style="font-size: 17px; font-weight: bold;"> Holiday: @month_holidays</span><br> <span style="font-size: 15px; font-weight: bold; color: darkgrey;"> Trump Approval Rating: @month_approval{0,0.0}%</span><br> <span style="font-size: 15px; font-weight: bold; color: blue;"> Generic Democrat: @month_generic_dem{0,0.0}%</span><br> <span style="font-size: 15px; font-weight: bold; color: red;"> Generic Republican: @month_generic_rep{0,0.0}%</span><br> <span style="font-size: 17px; font-weight: bold;"> NASDAQ: @month_nasdaq{0,0.00}</span><br> <span style="font-size: 17px; font-weight: bold;"> DJIA: @month_djia{0,0.00}</span><br> <span style="font-size: 17px; font-weight: bold;">S&P500: @month_sp500{0,0.00}</span><br> </div> <div> <img src="/static/img/nyt_logo.png" height="15" width="15" style="float: left;"></img> </div> <div> <span style="font-size: 17px; font-weight: bold;">NYT Headlines:</span> <span style="font-size: 15px;">@month_nyt</span> </div> <div> <img src="/static/img/twitter_logo.png" height="15" width="15" style="float: left;"></img> </div> <div> <span style="font-size: 17px; color:blue; font-weight: bold;">Trending Tweets:</span> <span style="font-size: 15px; color:blue;">@month_twitter</span> </div> </div> """ hover_tool = HoverTool(renderers=[rect_renderer], tooltips=TOOLTIPS) # hover_tool = HoverTool(renderers=[rect_renderer], tooltips=[("Holiday", "@month_holidays"),("DJIA", "@month_djia{0,0.00}"), # ("NASDAQ", "@month_nasdaq{0,0.00}"),("S&P500", "@month_sp500{0,0.00}"),("NYT Headlines", "@month_nyt"),("Trending Tweets","@month_twitter")]) plot.tools.append(hover_tool) return plot