kopia lustrzana https://github.com/peterhinch/micropython-nano-gui
Initial commit of epd29.py
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# epd29.py nanogui driver for Adafruit Flexible 2.9" Black and White ePaper display.
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# [Interface breakout](https://www.adafruit.com/product/4224)
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# [Display](https://www.adafruit.com/product/4262)
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# EPD is subclassed from framebuf.FrameBuffer for use with Writer class and nanogui.
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# Copyright (c) Peter Hinch 2020
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# Released under the MIT license see LICENSE
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# Based on the following sources:
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# [CircuitPython code](https://github.com/adafruit/Adafruit_CircuitPython_IL0373) Author: Scott Shawcroft
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# [Adafruit setup guide](https://learn.adafruit.com/adafruit-eink-display-breakouts/circuitpython-code-2)
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# [IL0373 datasheet](https://www.smart-prototyping.com/image/data/9_Modules/EinkDisplay/GDEW0154T8/IL0373.pdf)
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# [Adafruit demo](https://github.com/adafruit/Adafruit_CircuitPython_IL0373/blob/3f4f52eb3a65173165da1908f93a95383b45a726/examples/il0373_flexible_2.9_monochrome.py)
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# [eInk breakout schematic](https://learn.adafruit.com/assets/57645)
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# Physical pixels are 296w 128h. However the driver views the display as 128w * 296h with the
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# Adfruit code transposing the axes.
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import framebuf
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import uasyncio as asyncio
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from time import sleep_ms, sleep_us, ticks_ms, ticks_us, ticks_diff
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class EPD(framebuf.FrameBuffer):
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# A monochrome approach should be used for coding this. The rgb method ensures
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# nothing breaks if users specify colors.
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@staticmethod
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def rgb(r, g, b):
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return int((r > 127) or (g > 127) or (b > 127))
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def __init__(self, spi, cs, dc, rst, busy, asyn=False):
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self._spi = spi
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self._cs = cs # Pins
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self._dc = dc
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self._rst = rst # Active low.
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self._busy = busy # Active low on IL0373
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self._lsc = True # TODO this is here for test purposes. There is only one mode.
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if asyn:
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self._lock = asyncio.Lock()
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self._asyn = asyn
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# ._as_busy is set immediately on start of task. Cleared
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# when busy pin is logically false (physically 1).
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self._as_busy = False
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# Public bound variables.
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# Ones required by nanogui.
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# Dimensions in pixels as seen by nanogui (landscape mode).
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self.width = 296
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self.height = 128
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# Special mode enables demos written for generic displays to run.
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self.demo_mode = False
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self._buffer = bytearray(self.height * self.width // 8)
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self._mvb = memoryview(self._buffer)
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mode = framebuf.MONO_VLSB if self._lsc else framebuf.MONO_HLSB # TODO check this and set mode permanently
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super().__init__(self._buffer, self.width, self.height, mode)
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self.init()
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def _command(self, command, data=None):
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self._dc(0)
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self._cs(0)
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self._spi.write(command)
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self._cs(1)
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if data is not None:
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self._data(data)
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# Datasheet P26 seems to mandate CS False after each byte. Ugh.
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def _data(self, data, buf1=bytearray(1)):
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self._dc(1)
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for b in data:
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self._cs(0)
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buf1[0] = b
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self._spi.write(buf1)
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self._cs(1)
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def init(self):
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# Hardware reset
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self._rst(1)
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sleep_ms(200)
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self._rst(0)
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sleep_ms(200)
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self._rst(1)
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sleep_ms(200)
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# Initialisation
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cmd = self._command
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# Power setting. Data from Adafruit.
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# Datasheet default \x03\x00\x26\x26\x03 - slightly different voltages.
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cmd(b'\x01', b'\x03\x00\x2b\x2b\x09')
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# Booster soft start. Matches datasheet.
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cmd(b'\x06', b'\x17\x17\x17')
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cmd(b'\x04') # Power on
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sleep_ms(200)
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# Panel setting. Adafruit sends 0x5f. Should it be 9f?
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# Datasheet says reg 61 overrides so maybe it doesn't matter.
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cmd(b'\x00', b'\x9f')
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# CDI: As used by Adafruit. Datasheet is confusing on this.
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# See https://github.com/adafruit/Adafruit_CircuitPython_IL0373/issues/11
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# Send 0xf7?
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cmd(b'\x50', b'\x37')
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# PLL: correct for 150Hz as specified in Adafruit code
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cmd(b'\x30', b'\x29')
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# Resolution 128w * 296h as required by IL0373
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cmd(b'\x61', b'\x80\x01\x28') # Note hex(296) == 0x128
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# Set VCM_DC. 0 is datasheet default. I think Adafruit send 0x50 (-2.6V) rather than 0x12 (-1.0V)
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# https://github.com/adafruit/Adafruit_CircuitPython_IL0373/issues/17
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cmd(b'\x82', b'\x12') # Set Vcom to -1.0V
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sleep_ms(50)
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print('Init Done.')
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# For use in synchronous code: blocking wait on ready state.
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# TODO remove debug code from Waveshare fiasco.
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def wait_until_ready(self):
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sleep_ms(50)
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t = ticks_ms()
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while not self.ready():
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sleep_ms(100)
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dt = ticks_diff(ticks_ms(), t)
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print('wait_until_ready {}ms {:5.1f}mins'.format(dt, dt/60_000))
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# Asynchronous wait on ready state.
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async def wait(self):
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while not self.ready():
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await asyncio.sleep_ms(100)
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# Return immediate status. Pin state: 0 == busy.
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def ready(self):
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return not(self._as_busy or (self._busy() == 0))
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# draw the current frame memory.
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def show(self, buf1=bytearray(1)):
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#if self._asyn:
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#self._as_busy = True
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#asyncio.create_task(self._as_show())
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#return
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t = ticks_us()
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mvb = self._mvb
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cmd = self._command
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# DATA_START_TRANSMISSION_2 Datasheet P31 indicates this sets
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# busy pin low (True) and that it stays logically True until
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# refresh is complete. Probably don't need _as_busy TODO
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cmd(b'\x13')
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if self._lsc: # Landscape mode
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wid = self.width
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tbc = self.height // 8 # Vertical bytes per column
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iidx = wid * (tbc - 1) # Initial index
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idx = iidx # Index into framebuf
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vbc = 0 # Current vertical byte count
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hpc = 0 # Horizontal pixel count
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for _ in range(len(mvb)):
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buf1[0] = mvb[idx] ^ 0xff
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self._data(buf1)
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idx -= self.width
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vbc += 1
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vbc %= tbc
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if not vbc:
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hpc += 1
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idx = iidx + hpc
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else:
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self._data(self._buffer) # TODO if this works don't need ._mvb
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cmd(b'\x11') # Data stop
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sleep_us(20) # Allow for data coming back: currently ignore this
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# Datasheet P14 is ambiguous over whether a refresh command is necessary here TODO
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cmd(b'\x12') # DISPLAY_REFRESH
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te = ticks_us()
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print('show time', ticks_diff(te, t)//1000, 'ms')
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if not self.demo_mode:
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# Immediate return to avoid blocking the whole application.
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# User should wait for ready before calling refresh()
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return
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self.wait_until_ready()
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sleep_ms(2000) # Give time for user to see result
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# to wake call init()
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def sleep(self):
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cmd = self._command
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# CDI: not sure about value or why we set this here. Copying Adafruit.
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cmd(b'\x50', b'\x17')
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# Set VCM_DC. 0 is datasheet default.
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cmd(b'\x82', b'\x00')
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# POWER_OFF. User code should pull ENA low to power down the display.
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cmd(b'\x02')
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