I was looking to create a calendar heatmap where each month is displayed separately. I also needed to annotate each day with the day number (day_of_month) and it's value label.

I've been inspired by the answers posted here and also the following sites:

Here, although in R

Heatmap using pcolormesh

However I didn't seem to find something exactly as I was looking for, so I've decided to post my solution here to perhaps save others wanting the same kind of plot some time.

My example uses a bit of Pandas simply to generate some dummy data, so you can easily plug your own data source instead. Other than that it's just matplotlib.

Output from the code is given below. For my needs I also wanted to highlight days where the data was 0 (see 1st January).

```
import numpy as np
import pandas as pd
import matplotlib.pyplot as plt
from matplotlib.patches import Polygon
# Settings
years = [2018] # [2018, 2019, 2020]
weeks = [1, 2, 3, 4, 5, 6]
days = ['M', 'T', 'W', 'T', 'F', 'S', 'S']
month_names = ['January', 'February', 'March', 'April', 'May', 'June', 'July', 'August',
'September', 'October', 'November', 'December']
def generate_data():
idx = pd.date_range('2018-01-01', periods=365, freq='D')
return pd.Series(range(len(idx)), index=idx)
def split_months(df, year):
"""
Take a df, slice by year, and produce a list of months,
where each month is a 2D array in the shape of the calendar
:param df: dataframe or series
:return: matrix for daily values and numerals
"""
df = df[df.index.year == year]
# Empty matrices
a = np.empty((6, 7))
a[:] = np.nan
day_nums = {m:np.copy(a) for m in range(1,13)} # matrix for day numbers
day_vals = {m:np.copy(a) for m in range(1,13)} # matrix for day values
# Logic to shape datetimes to matrices in calendar layout
for d in df.iteritems(): # use iterrows if you have a DataFrame
day = d[0].day
month = d[0].month
col = d[0].dayofweek
if d[0].is_month_start:
row = 0
day_nums[month][row, col] = day # day number (0-31)
day_vals[month][row, col] = d[1] # day value (the heatmap data)
if col == 6:
row += 1
return day_nums, day_vals
def create_year_calendar(day_nums, day_vals):
fig, ax = plt.subplots(3, 4, figsize=(14.85, 10.5))
for i, axs in enumerate(ax.flat):
axs.imshow(day_vals[i+1], cmap='viridis', vmin=1, vmax=365) # heatmap
axs.set_title(month_names[i])
# Labels
axs.set_xticks(np.arange(len(days)))
axs.set_xticklabels(days, fontsize=10, fontweight='bold', color='#555555')
axs.set_yticklabels([])
# Tick marks
axs.tick_params(axis=u'both', which=u'both', length=0) # remove tick marks
axs.xaxis.tick_top()
# Modify tick locations for proper grid placement
axs.set_xticks(np.arange(-.5, 6, 1), minor=True)
axs.set_yticks(np.arange(-.5, 5, 1), minor=True)
axs.grid(which='minor', color='w', linestyle='-', linewidth=2.1)
# Despine
for edge in ['left', 'right', 'bottom', 'top']:
axs.spines[edge].set_color('#FFFFFF')
# Annotate
for w in range(len(weeks)):
for d in range(len(days)):
day_val = day_vals[i+1][w, d]
day_num = day_nums[i+1][w, d]
# Value label
axs.text(d, w+0.3, f"{day_val:0.0f}",
ha="center", va="center",
fontsize=7, color="w", alpha=0.8)
# If value is 0, draw a grey patch
if day_val == 0:
patch_coords = ((d - 0.5, w - 0.5),
(d - 0.5, w + 0.5),
(d + 0.5, w + 0.5),
(d + 0.5, w - 0.5))
square = Polygon(patch_coords, fc='#DDDDDD')
axs.add_artist(square)
# If day number is a valid calendar day, add an annotation
if not np.isnan(day_num):
axs.text(d+0.45, w-0.31, f"{day_num:0.0f}",
ha="right", va="center",
fontsize=6, color="#003333", alpha=0.8) # day
# Aesthetic background for calendar day number
patch_coords = ((d-0.1, w-0.5),
(d+0.5, w-0.5),
(d+0.5, w+0.1))
triangle = Polygon(patch_coords, fc='w', alpha=0.7)
axs.add_artist(triangle)
# Final adjustments
fig.suptitle('Calendar', fontsize=16)
plt.subplots_adjust(left=0.04, right=0.96, top=0.88, bottom=0.04)
# Save to file
plt.savefig('calendar_example.pdf')
for year in years:
df = generate_data()
day_nums, day_vals = split_months(df, year)
create_year_calendar(day_nums, day_vals)
```

There is probably a lot of room for optimisation, but this gets what I need done.