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@ -2,9 +2,10 @@
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import cairo
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import math
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import datetime
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from datetime import datetime
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import calendar
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import random
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import colorsys
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from utils import random_color
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@ -25,53 +26,49 @@ DARK_BG = True
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# precision of the calculation
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PRECISION = 10000
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def days_color(date):
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import colorsys
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def days_color(date: datetime) -> tuple[float, float, float]:
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'''Return a color based on the progress through the year.'''
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# a day between 1 and 365 (inclusive)
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today = date.timetuple().tm_yday
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year = date.year
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days_in_year = 365 + calendar.isleap(year)
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days_in_year = 365 + calendar.isleap(date.year)
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# between 0 and 1, how far through the year are we?
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progress = today/days_in_year
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return colorsys.hsv_to_rgb(progress, 1, 0.9)
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def days_amp(date, waves):
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day = date.day
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def days_amp(date: datetime, waves) -> float:
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'''Return the amplitude of waves, based on progress through the month.'''
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days_in_month = calendar.monthrange(date.year, date.month)[1]
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max_amp = 1/waves/2
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return day/days_in_month * max_amp
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return date.day/days_in_month * max_amp
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def days_count(date):
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return date.month
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def create_wpotd(output):
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surface = cairo.ImageSurface(cairo.FORMAT_ARGB32, WIDTH, HEIGHT)
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def create_wpotd(width: int, height: int):
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#TODO: return a `file`-like object
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surface = cairo.ImageSurface(cairo.FORMAT_ARGB32, width, height)
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ctx = cairo.Context(surface)
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ctx.scale(WIDTH, HEIGHT) # Normalizing the canvas
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ctx.scale(width, height) # Normalizing the canvas
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#ctx.set_antialias(cairo.Antialias.BEST)
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step_size = 1/PRECISION
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lastpoints = [(x/PRECISION, 0) for x in range(PRECISION+1)]
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#date = datetime.datetime.strptime('2021-06-30', '%Y-%m-%d')
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date = datetime.datetime.today()
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date = datetime.today()
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frequency = random.randint(10, 40)
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if DATE_BASED_COUNT:
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waves = days_count(date)
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# generate as many waves as the number of the current month
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waves = date.month
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else:
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waves = 12
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if DATE_BASED_AMPLITUDE:
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amplitude = days_amp(date, waves)
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else:
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amplitude = 25
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if MONOCHROME:
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if DATE_BASED_COLOR:
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r, g, b = days_color(date) #datetime.datetime.now())
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else:
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r, g, b = random_color()
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alpha_step = 1/waves
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alpha_step = 1/waves
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if DARK_BG:
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# make bg black
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ctx.rectangle(0, 0, 1, 1)
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@ -79,20 +76,24 @@ def create_wpotd(output):
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ctx.fill()
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wave_height = 1/waves
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for num in range(waves+1):
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step_size = 1/PRECISION
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for wave_index in range(waves+1):
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if not MONOCHROME:
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r, g, b = random_color()
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points = []
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x = 0
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while x < 1:
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y = amplitude * math.sin(frequency * x + (num * WAVE_OFFSET) )
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points.append((x, ( y + (0.5+num)*wave_height)))
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# step along, create points along the wave
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y = amplitude * math.sin(frequency * x + (wave_index * WAVE_OFFSET))
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points.append((x, (y + (0.5 + wave_index)*wave_height)))
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x += step_size
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#print(f'Draw {len(points)} points for curve {num}')
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if not MONOCHROME:
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ctx.set_source_rgb(r, g, b)
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else:
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ctx.set_source_rgba(r, g, b, 1 - (alpha_step * num)) # make more transparent toward bottom
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# make more transparent toward bottom
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ctx.set_source_rgba(r, g, b, 1 - (alpha_step * wave_index))
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# draw waves
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ctx.move_to(*points[0])
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for p in points[1:]:
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@ -104,11 +105,12 @@ def create_wpotd(output):
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ctx.line_to(*points[0])
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ctx.fill()
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lastpoints = points
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#return surface
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surface.write_to_png(output) # Output to PNG
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return surface
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#surface.write_to_png(output) # Output to PNG
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def main():
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create_wpotd('out/waves.png')
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output = create_wpotd(1920, 1080)
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output.write_to_png('out/waves.png')
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if __name__ == '__main__':
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main()
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