E-Paper-Calendar/Calendar/Epd7in5bAdapter.py

from EpdAdapter import EpdAdapter, DISPLAY_REFRESH, DATA_START_TRANSMISSION_1
from settings import display_colours
from PIL import Image, ImageDraw
from math import sqrt, pow

class Epd7in5bAdapter (EpdAdapter):
    def __init__ (self):
        super(Epd7in5bAdapter, self).__init__(384, 640)

    def display_frame (self, frame_buffer):
        self.send_command(DATA_START_TRANSMISSION_1)
        for i in range(0, int(self.height / 4 * self.width)):
            #the above line had to be modified due to python2 -> python3
            #the issue lies in division, which returns integers in python2
            #but floats in python3
            temp1 = frame_buffer[i]
            j = 0
            while (j < 4):
                if ((temp1 & 0xC0) == 0xC0):
                    temp2 = 0x03
                elif ((temp1 & 0xC0) == 0x00):
                    temp2 = 0x00
                else:
                    temp2 = 0x04
                temp2 = (temp2 << 4) & 0xFF
                temp1 = (temp1 << 2) & 0xFF
                j += 1
                if((temp1 & 0xC0) == 0xC0):
                    temp2 |= 0x03
                elif ((temp1 & 0xC0) == 0x00):
                    temp2 |= 0x00
                else:
                    temp2 |= 0x04
                temp1 = (temp1 << 2) & 0xFF
                self.send_data(temp2)
                j += 1
        self.send_command(DISPLAY_REFRESH)
        self.delay_ms(100)
        self.wait_until_idle()

    def get_frame_buffer (self, image):
        buf = [ 0x00 ] * int(self.height * self.width / 4)
        image_rgb = image
        imwidth, imheight = image_rgb.size
        if imwidth != self.height or imheight != self.width:
            raise ValueError('Image must be same dimensions as display \
                ({0}x{1}).' .format(self.height, self.width))

        for y in range(self.width):
            for x in range(self.height):
                # Set the bits for the column of pixels at the current
                # position.
                pixel = image_rgb.getpixel((x, y))
                color = self.__get_color__(pixel)
                if color is 'white':
                    buf[int((x + y * self.height) / 4)] |= 0xC0 >> (x % 4 * 2)
                elif color is 'black':
                    buf[int((x + y * self.height) / 4)] &= ~(0xC0 >> (x % 4 * 2))
                if color is 'red':
                    buf[int((x + y * self.height) / 4)] &= ~(0xC0 >> (x % 4 * 2))
                    buf[int((x + y * self.height) / 4)] |= 0x40 >> (x % 4 * 2)
        return buf #due to python2 -> python3, int had to be added in 'get_frame
                   #_buffer

    def __get_color__ (self, pixel):
        color_percent = self.__get_color_percentage__(pixel)
        brightness = self.__brightness__(pixel)
        if brightness > 220 or (brightness > 150 and color_percent[0] > 35):
            return 'white'
        elif color_percent[0] > 50:
            return 'red'
        else:
            return 'black'

    def __get_color_percentage__ (self, pixel):
        sum = pixel[0] + pixel[1] + pixel[2]
        if sum is 0:
            return (0,0,0)
        return (pixel[0] / sum * 100, pixel[1] / sum * 100, pixel[2] / sum * 100)

    def __brightness__ (self, pixel):
        return (pixel[0] + pixel[1] + pixel[2]) / 3

    def calibrate (self):
        for _ in range(2):
            self.init_render()
            black = Image.new('RGB', (self.height, self.width), 'black')
            print('calibrating black...')
            ImageDraw.Draw(black)
            self.display_frame(self.get_frame_buffer(black))

            red = Image.new('RGB', (self.height, self.width), 'red')
            ImageDraw.Draw(red)
            print('calibrating red...')
            self.display_frame(self.get_frame_buffer(red))

            white = Image.new('RGB', (self.height, self.width), 'white')
            ImageDraw.Draw(white)
            print('calibrating white...')
            self.display_frame(self.get_frame_buffer(white))
            self.sleep()
        print('Calibration complete')
Implemented EpdDisplayAdapters 2019-02-19 21:43:53 +01:00			`from EpdAdapter import EpdAdapter, DISPLAY_REFRESH, DATA_START_TRANSMISSION_1`
Implemented calibration 2019-02-19 21:49:50 +01:00			`from settings import display_colours`
			`from PIL import Image, ImageDraw`
Fine tuned the color interpretation on the Epd7in5b 2019-03-01 18:53:58 +01:00			`from math import sqrt, pow`
Implemented EpdDisplayAdapters 2019-02-19 21:43:53 +01:00
			`class Epd7in5bAdapter (EpdAdapter):`
Fixed some bugs 2019-02-19 22:07:23 +01:00			`def __init__ (self):`
First steps. Deleted alot, added even more. 2019-02-28 15:17:43 +01:00			`super(Epd7in5bAdapter, self).__init__(384, 640)`
Implemented EpdDisplayAdapters 2019-02-19 21:43:53 +01:00
			`def display_frame (self, frame_buffer):`
			`self.send_command(DATA_START_TRANSMISSION_1)`
Fixed printing errors 2019-02-28 21:58:38 +01:00			`for i in range(0, int(self.height / 4 * self.width)):`
Implemented EpdDisplayAdapters 2019-02-19 21:43:53 +01:00			`#the above line had to be modified due to python2 -> python3`
			`#the issue lies in division, which returns integers in python2`
			`#but floats in python3`
			`temp1 = frame_buffer[i]`
			`j = 0`
			`while (j < 4):`
			`if ((temp1 & 0xC0) == 0xC0):`
			`temp2 = 0x03`
			`elif ((temp1 & 0xC0) == 0x00):`
			`temp2 = 0x00`
			`else:`
			`temp2 = 0x04`
			`temp2 = (temp2 << 4) & 0xFF`
			`temp1 = (temp1 << 2) & 0xFF`
			`j += 1`
			`if((temp1 & 0xC0) == 0xC0):`
			`temp2 \|= 0x03`
			`elif ((temp1 & 0xC0) == 0x00):`
			`temp2 \|= 0x00`
			`else:`
			`temp2 \|= 0x04`
			`temp1 = (temp1 << 2) & 0xFF`
			`self.send_data(temp2)`
			`j += 1`
			`self.send_command(DISPLAY_REFRESH)`
			`self.delay_ms(100)`
			`self.wait_until_idle()`

			`def get_frame_buffer (self, image):`
Fixed printing errors 2019-02-28 21:58:38 +01:00			`buf = [ 0x00 ] * int(self.height * self.width / 4)`
Basic implementation of RGB to Epd display. Still needs some fine tuning. 2019-02-28 22:38:06 +01:00			`image_rgb = image`
			`imwidth, imheight = image_rgb.size`
Fixed printing errors 2019-02-28 21:58:38 +01:00			`if imwidth != self.height or imheight != self.width:`
Implemented EpdDisplayAdapters 2019-02-19 21:43:53 +01:00			`raise ValueError('Image must be same dimensions as display \`
Fixed printing errors 2019-02-28 21:58:38 +01:00			`({0}x{1}).' .format(self.height, self.width))`
Implemented EpdDisplayAdapters 2019-02-19 21:43:53 +01:00
Fixed printing errors 2019-02-28 21:58:38 +01:00			`for y in range(self.width):`
			`for x in range(self.height):`
Implemented calibration 2019-02-19 21:49:50 +01:00			`# Set the bits for the column of pixels at the current`
			`# position.`
Basic implementation of RGB to Epd display. Still needs some fine tuning. 2019-02-28 22:38:06 +01:00			`pixel = image_rgb.getpixel((x, y))`
Fine tuned the color interpretation on the Epd7in5b 2019-03-01 18:53:58 +01:00			`color = self.__get_color__(pixel)`
			`if color is 'white':`
			`buf[int((x + y * self.height) / 4)] \|= 0xC0 >> (x % 4 * 2)`
			`elif color is 'black':`
Fixed printing errors 2019-02-28 21:58:38 +01:00			`buf[int((x + y * self.height) / 4)] &= ~(0xC0 >> (x % 4 * 2))`
Fine tuned the color interpretation on the Epd7in5b 2019-03-01 18:53:58 +01:00			`if color is 'red':`
Fixed printing errors 2019-02-28 21:58:38 +01:00			`buf[int((x + y * self.height) / 4)] &= ~(0xC0 >> (x % 4 * 2))`
			`buf[int((x + y * self.height) / 4)] \|= 0x40 >> (x % 4 * 2)`
Implemented EpdDisplayAdapters 2019-02-19 21:43:53 +01:00			`return buf #due to python2 -> python3, int had to be added in 'get_frame`
Implemented calibration 2019-02-19 21:49:50 +01:00			`#_buffer`

Fine tuned the color interpretation on the Epd7in5b 2019-03-01 18:53:58 +01:00			`def __get_color__ (self, pixel):`
			`color_percent = self.__get_color_percentage__(pixel)`
			`brightness = self.__brightness__(pixel)`
			`if brightness > 220 or (brightness > 150 and color_percent[0] > 35):`
			`return 'white'`
			`elif color_percent[0] > 50:`
			`return 'red'`
			`else:`
			`return 'black'`

			`def __get_color_percentage__ (self, pixel):`
			`sum = pixel[0] + pixel[1] + pixel[2]`
			`if sum is 0:`
			`return (0,0,0)`
			`return (pixel[0] / sum * 100, pixel[1] / sum * 100, pixel[2] / sum * 100)`

Basic implementation of RGB to Epd display. Still needs some fine tuning. 2019-02-28 22:38:06 +01:00			`def __brightness__ (self, pixel):`
			`return (pixel[0] + pixel[1] + pixel[2]) / 3`

Implemented calibration 2019-02-19 21:49:50 +01:00			`def calibrate (self):`
			`for _ in range(2):`
			`self.init_render()`
Fine tuned the color interpretation on the Epd7in5b 2019-03-01 18:53:58 +01:00			`black = Image.new('RGB', (self.height, self.width), 'black')`
Implemented calibration 2019-02-19 21:49:50 +01:00			`print('calibrating black...')`
			`ImageDraw.Draw(black)`
			`self.display_frame(self.get_frame_buffer(black))`

Fine tuned the color interpretation on the Epd7in5b 2019-03-01 18:53:58 +01:00			`red = Image.new('RGB', (self.height, self.width), 'red')`
Implemented calibration 2019-02-19 21:49:50 +01:00			`ImageDraw.Draw(red)`
			`print('calibrating red...')`
			`self.display_frame(self.get_frame_buffer(red))`

Fine tuned the color interpretation on the Epd7in5b 2019-03-01 18:53:58 +01:00			`white = Image.new('RGB', (self.height, self.width), 'white')`
Implemented calibration 2019-02-19 21:49:50 +01:00			`ImageDraw.Draw(white)`
			`print('calibrating white...')`
			`self.display_frame(self.get_frame_buffer(white))`
			`self.sleep()`
			`print('Calibration complete')`