178 lines
6.0 KiB
Python
178 lines
6.0 KiB
Python
from PIL import Image, ImageDraw, ImageFont
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import numpy as np
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import datetime
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import time
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# bulky hard-coded values:
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from . import shapes
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digits = shapes.digits
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weather_categories = shapes.weather_categories
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digit_position = [[2,4], [2,10], [9,4], [9,10]]
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days = np.append(np.zeros((15,16)), np.array([0,1,0,1,0,1,0,1,0,1,0,1,1,0,1,1])).reshape((16,16))
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class MatrixOperations():
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"""Helper functions to generate frequently-used images"""
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def __init__(self, shape=[16,16]):
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self.shape = shape
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# shape is going to be (16,32) for the moment
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self.primary = [200, 200, 200]
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self.secondary = [10, 200, 10]
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self.error = [200, 10, 10]
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def time_converter(self, top="", bottom=""):
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"""Converts 4-digit time to a 16x16 pixel-matrix
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returns: np.array"""
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# nshape = (self.shape[0], int(self.shape[1]/2))
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nshape = (16, 16)
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pixels = np.zeros(nshape, dtype=np.uint8)
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if bottom == "" or top == "":
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top = datetime.datetime.now().strftime("%H")
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bottom = datetime.datetime.now().strftime("%M")
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if len(top) < 2:
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top = "0" * (2 - len(top)) + top
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if len(bottom) < 2:
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bottom = "0" * (2 - len(bottom)) + bottom
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if ("-" in top and len(top) > 2) or ("-" in bottom and len(bottom) > 2):
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time_split = 4*["-"]
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elif "error" in top and "error" in bottom:
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time_split = 4*["error"]
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else:
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time_split = [i for i in top] + [i for i in bottom]
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if "-1" in top and len(top) != 2:
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time_split = ["-1", top[-1]] + [i for i in bottom]
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if "-1" in bottom and len(bottom) != 2:
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time_split = [i for i in top] + ["-1", bottom[-1]]
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for i in range(4):
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x = digit_position[i][0]
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y = digit_position[i][1]
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number = digits[time_split[i]]
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pixels[x: x + 5, y: y + 3] = np.array(number)
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return pixels
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def date_converter(self):
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# nshape = (self.shape[0], int(self.shape[1]/2))
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nshape = (16, 16)
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today = datetime.datetime.today()
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weekday = datetime.datetime.weekday(today)
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# size of the reduced array according to weekday
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size = [2,4,6,8,10,13,16]
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pixels = days.copy() #base color background
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lrow = np.append(pixels[15,:size[weekday]], [0 for i in range(16 - size[weekday])])
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lrow = np.append(np.zeros((15,16)), lrow).reshape(nshape)
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pixels += lrow
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return pixels
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def weather_converter(self, name):
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"""Fills one half of the screen with weather info."""
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# nshape = (self.shape[0], int(self.shape[1]/2))
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nshape = (16, 16)
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result = np.zeros(nshape)
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cwd = __file__.replace("\\","/") # for windows
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cwd = cwd.rsplit("/", 1)[0] # the current working directory (where this file is)
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if len(cwd) == 0:
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cwd = "."
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icon_spritesheet = cwd + "/weather-icons.bmp"
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icons = Image.open(icon_spritesheet)
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icons_full = np.array(icons)
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icon_loc = ["sun","moon","sun and clouds", "moon and clouds", "cloud","fog and clouds","2 clouds", "3 clouds", "rain and cloud", "rain and clouds", "rain and cloud and sun", "rain and cloud and moon", "thunder and cloud", "thunder and cloud and moon", "snow and cloud", "snow and cloud and moon", "fog","fog night"]
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#ordered 1 2 \n 3 4 \ 5 5 ...
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if name == "":
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name = "error"
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name = weather_categories[name]
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try:
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iy, ix = int(icon_loc.index(name)/2), icon_loc.index(name)%2
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# x and y coords
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except:
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return np.zeros((*nshape,3))
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icon_single = icons_full[16*iy:16*(iy + 1),16*ix:16*(ix + 1),...]
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return icon_single
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def matrix_add_depth(self, matrix, colors = []):
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"""transforms a 2d-array with 0,1,2 to a 3d-array with the rgb values for primary and secondary color"""
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c1 = self.primary
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c2 = self.secondary
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c3 = self.error
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if len(colors) > 0:
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c1 = colors[0]
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if len(colors) > 1:
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c2 = colors[1]
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if len(colors) > 2:
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c3 = colors[2]
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if len(colors) > 3:
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print("Too many colors")
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r3 = np.zeros((matrix.shape[0],matrix.shape[1],3),dtype=int)
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for i in range(matrix.shape[0]):
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for j in range(matrix.shape[1]):
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t = int(matrix[i, j])
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if t == 0:
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r3[i, j, :] = [0,0,0]
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elif t == 1:
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r3[i, j, :] = c1
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elif t == 2:
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r3[i, j, :] = c2
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else:
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r3[i, j, :] = c3
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return r3
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def clock_face(self, weather):
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"""weather as a dict"""
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hour = self.time_converter()
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day = self.date_converter()
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face1 = hour + day
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# time + date:
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face1_3d = self.matrix_add_depth(face1)
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# weather icons
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face2_3d = self.weather_converter(weather["weather"])
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# weather temps
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face3 = self.time_converter(top=str(weather["low"]), bottom=str(weather["high"]))
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face3 = np.concatenate((face3[:8,...],2*face3[8:,...]))
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face3_3d = self.matrix_add_depth(face3,[[0, 102, 255],[255, 102, 0]])
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return [face1_3d, face2_3d, face3_3d]
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def text_converter(self, text, height, color):
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"""Converts a text to a pixel-matrix
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returns: np.array((16, x, 3))"""
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font = ImageFont.truetype("verdanab.ttf", height)
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size = font.getsize(text)
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img = Image.new("1",size,"black")
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draw = ImageDraw.Draw(img)
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draw.text((0, 0), text, "white", font=font)
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pixels = np.array(img, dtype=np.uint8)
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pixels3d = self.matrix_add_depth(pixels, color)
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return pixels3d
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def get_fallback(self):
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hour = self.time_converter()
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day = self.date_converter()
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face1 = hour + day
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face1_3d = self.matrix_add_depth(face1)
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face2_3d = face3_3d = np.zeros((16,16,3))
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return [face1_3d, face2_3d, face3_3d] |