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sh1107.py
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sh1107.py
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# MicroPython SH1107 OLED driver, I2C interfaces
# tested with Raspberry Pi Pico and adafruit 1.12 inch QWIC OLED display
# sh1107 driver v319
__version__ = "v319"
__repo__ = "https://github.com/peter-l5/SH1107"
#
# The MIT License (MIT)
#
# Copyright (c) 2016 Radomir Dopieralski (@deshipu),
# 2017-2021 Robert Hammelrath (@robert-hh)
# 2021 Tim Weber (@scy)
# 2022-2023 Peter Lumb (peter-l5)
#
# Permission is hereby granted, free of charge, to any person obtaining a copy
# of this software and associated documentation files (the "Software"), to deal
# in the Software without restriction, including without limitation the rights
# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
# copies of the Software, and to permit persons to whom the Software is
# furnished to do so, subject to the following conditions:
#
# The above copyright notice and this permission notice shall be included in
# all copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
# THE SOFTWARE.
#
#
# Sample code sections for RaspberryPi Pico pin assignments
# ------------ SPI ------------------
# Pin Map SPI
# - 3v3 - xxxxxx - Vcc
# - G - xxxxxx - Gnd
# - D7 - GPIO 15 - TX / MOSI fixed
# - D5 - GPIO 14 - SCK / Sck fixed
# - D8 - GPIO 13 - CS (optional, if the only connected device)
# - D2 - GPIO 21 - DC [Data/Command]
# - D1 - GPIO 20 - Res [reset]
#
# spi1 = SPI(1, baudrate=10_000_000, sck=Pin(14), mosi=Pin(15), miso=Pin(12))
# display = sh1107.SH1107_SPI(128, 128, spi1, Pin(21), Pin(20), Pin(13))
# display.sleep(False)
# display.fill(0)
# display.text('SH1107', 0, 0, 1)
# display.text('driver', 0, 8, 1)
# display.show()
#
# --------------- I2C ------------------
#
# reset PIN is not needed in some implementations
# Pin Map I2C
# - 3v3 - xxxxxx - Vcc
# - G - xxxxxx - Gnd
# - D2 - GPIO 5 - SCK / SCL
# - D1 - GPIO 4 - DIN / SDA
# - D0 - GPIO 16 - Res
# - G - xxxxxx CS
# - G - xxxxxx D/C
#
# using hardware I2C
# from machine import Pin, I2C
# import sh1107
#
# i2c0 = I2C(0, scl=Pin(5), sda=Pin(4), freq=400000)
# display = sh1107.SH1107_I2C(128, 128, i2c0, address=0x3d, rotate=90)
# display.sleep(False)
# display.fill(0)
# display.text('SH1107', 0, 0, 1)
# display.text('driver', 0, 8, 1)
# display.show()
__version__ = "v317"
__repo__ = "https://github.com/peter-l5/SH1107"
## SH1107 module code
from micropython import const
import time
# import extended framebuffer if available)
try:
import framebuf2 as framebuf
_fb_variant = 2
except:
import framebuf
_fb_variant = 1
print("SH1107: framebuf is ", ("standard" if _fb_variant ==1 else "extended") )
# a few register definitions with SH1107 data sheet reference numbers
_LOW_COLUMN_ADDRESS = const(0x00) # 1. Set Column Address 4 lower bits (POR = 00H)
_HIGH_COLUMN_ADDRESS = const(0x10) # 2. Set Column Address 4 higher bits (POR = 10H)
_MEM_ADDRESSING_MODE = const(0x20) # 3. Set Memory addressing mode
# 0x20 horizontal addressing; 0x21 vertical addressing
_SET_CONTRAST = const(0x8100) # 4. Set Contrast Control (double byte command)
_SET_SEGMENT_REMAP = const(0xa0) # 5. Set Segment Re-map: (A0H - A1H)
_SET_MULTIPLEX_RATIO = const(0xA800) # 6. Set Multiplex Ratio: (Double Bytes Command)
# duty = 1/64 [3f] or 128 [7f] (POR)
_SET_NORMAL_INVERSE = const(0xa6) # 8. Set Normal/Reverse Display: (A6H -A7H)
_SET_DISPLAY_OFFSET = const(0xD300) # 9. Set Display Offset: (Double Bytes Command)
# second byte may need amending for some displays
# some 128x64 displays (eg Adafruit feather wing 4650)
# require 0xD360
_SET_DC_DC_CONVERTER_SF = const(0xad81) # 10. Set DC-DC Setting (set charge pump enable)
# Set DC-DC enable (a=0:disable; a=1:enable)
# 0xad81 is POR value and may be needed for 128x64 displays
_SET_DISPLAY_OFF = const(0xae) # 11. Display OFF/ON: (AEH - AFH)
_SET_DISPLAY_ON = const(0xaf) # 11. Display OFF/ON: (AEH - AFH)
_SET_PAGE_ADDRESS = const(0xB0) # 12. Set Page Address (using 4 low bits)
_SET_SCAN_DIRECTION = const(0xC0) # 13. Set Common Output Scan Direction: (C0H - C8H)
_SET_DISP_CLK_DIV = const(0xD550) # 14. Set the frequency of the internal display clocks (DCLKs).
# 0x50 is the POR value
_SET_DIS_PRECHARGE = const(0xD922) # 15. Set the duration of the pre-charge period. The interval is counted in number of DCLK
# 0x22 is default POR value
_SET_VCOM_DSEL_LEVEL = const(0xDB35) # 16. This command is to set the common pad output voltage level at deselect stage.
# POR value 0x35 (0.77 * Vref)
_SET_DISPLAY_START_LINE = const(0xDC00) # 17. Set Display Start Line (double byte command)
class SH1107(framebuf.FrameBuffer):
def __init__(self, width, height, external_vcc, delay_ms=200, rotate=0):
self.width = width
self.height = height
self.external_vcc = external_vcc
self.delay_ms = delay_ms
self.flip_flag = False
self.rotate90 = rotate == 90 or rotate == 270
self.rotate = rotate
self.inverse = False
if self.rotate90:
self.width, self.height = self.height, self.width
self.pages = self.height // 8
self.row_width = self.width // 8
self.bufsize = self.pages * self.width
self.displaybuf = bytearray(self.bufsize)
self.displaybuf_mv = memoryview(self.displaybuf)
self.pages_to_update = 0
self._is_awake = False
if self.rotate90:
super().__init__(self.displaybuf, self.width, self.height,
framebuf.MONO_VLSB)
else:
super().__init__(self.displaybuf, self.width, self.height,
framebuf.MONO_HMSB)
self.init_display()
def init_display(self):
multiplex_ratio = 0x7F if (self.height == 128) else 0x3F
self.reset()
self.poweroff()
self.fill(0)
self.write_command((_SET_MULTIPLEX_RATIO | multiplex_ratio).to_bytes(2,"big"))
self.write_command((_MEM_ADDRESSING_MODE | (0x00 if self.rotate90 else 0x01)).to_bytes(1,"big"))
self.write_command(_SET_PAGE_ADDRESS.to_bytes(1,"big")) # set page address to zero
self.write_command(_SET_DC_DC_CONVERTER_SF.to_bytes(2,"big"))
self.write_command(_SET_DISP_CLK_DIV.to_bytes(2,"big"))
self.write_command(_SET_VCOM_DSEL_LEVEL.to_bytes(2,"big"))
self.write_command(_SET_DIS_PRECHARGE.to_bytes(2,"big"))
self.contrast(0)
self.invert(0)
# requires a call to flip() for setting up
self.flip(self.flip_flag)
self.poweron()
def poweron(self):
self.write_command(_SET_DISPLAY_ON.to_bytes(1,"big"))
self._is_awake = True
time.sleep_ms(self.delay_ms) # SH1107 datasheet recommends a delay in power on sequence
def poweroff(self):
self.write_command(_SET_DISPLAY_OFF.to_bytes(1,"big"))
self._is_awake = False
def sleep(self, value=True):
if value == True:
self.poweroff()
else:
self.poweron()
@property
def is_awake(self) -> bool:
return self._is_awake
def flip(self, flag=None, update=True):
if flag is None:
flag = not self.flip_flag
if self.height == 128 and self.width == 128:
row_offset = 0x00
elif self.rotate90:
row_offset = 0x60
else:
row_offset = 0x20 if (self.rotate == 180) ^ flag else 0x60
remap = 0x00 if (self.rotate in (90, 180)) ^ flag else 0x01
direction = 0x08 if (self.rotate in (180, 270)) ^ flag else 0x00
self.write_command((_SET_DISPLAY_OFFSET | row_offset).to_bytes(2,"big"))
self.write_command((_SET_SEGMENT_REMAP | remap ).to_bytes(1,"big") )
self.write_command((_SET_SCAN_DIRECTION | direction ).to_bytes(1,"big") )
self.flip_flag = flag
if update:
self.show(True) # full update
def display_start_line(self, value):
"""
17. Set Display Start Line:(Double Bytes Command)
valid values are 0 (Power on /Reset) to 127 (x00-x7F)
"""
self.write_command((_SET_DISPLAY_START_LINE | (value & 0x7F)).to_bytes(2,"big"))
def contrast(self, contrast):
"""
4. contrast can be between 0 (low), 0x80 (POR) and 0xff (high)
the segment current increases with higher values
"""
self.write_command((_SET_CONTRAST | (contrast & 0xFF)).to_bytes(2,"big"))
def invert(self, invert=None):
if invert == None:
invert = not self.inverse
self.write_command((_SET_NORMAL_INVERSE | (invert & 1)).to_bytes(1,"big"))
self.inverse = invert
def show(self, full_update: bool = False):
# _start = time.ticks_us()
(w, p, db_mv) = (self.width, self.pages, self.displaybuf_mv)
current_page = 1
if full_update:
pages_to_update = (1 << p) - 1
else:
pages_to_update = self.pages_to_update
if self.rotate90:
buffer_3Bytes = bytearray(3)
buffer_3Bytes[1] = _LOW_COLUMN_ADDRESS
buffer_3Bytes[2] = _HIGH_COLUMN_ADDRESS
for page in range(p):
if pages_to_update & current_page:
buffer_3Bytes[0] = _SET_PAGE_ADDRESS | page
self.write_command(buffer_3Bytes)
page_start = w * page
self.write_data(db_mv[page_start : page_start + w])
current_page <<= 1
else:
row_bytes = w // 8
buffer_2Bytes = bytearray(2)
for start_row in range(0, p * 8, 8):
if pages_to_update & current_page:
for row in range(start_row, start_row + 8):
buffer_2Bytes[0] = row & 0x0f # low column (low col. cmd is 0x00)
buffer_2Bytes[1] = _HIGH_COLUMN_ADDRESS | (row >> 4)
self.write_command(buffer_2Bytes)
slice_start = row * row_bytes
self.write_data(db_mv[slice_start : slice_start + row_bytes])
current_page <<= 1
self.pages_to_update = 0
# print("screen update used ", (time.ticks_us() - _start) / 1000, "ms")
def pixel(self, x, y, c=None):
if c is None:
return super().pixel(x, y)
else:
super().pixel(x, y , c)
page = y // 8
self.pages_to_update |= 1 << page
def text(self, text, x, y, c=1):
super().text(text, x, y, c)
self.register_updates(y, y + 7)
def line(self, x0, y0, x1, y1, c):
super().line(x0, y0, x1, y1, c)
self.register_updates(y0, y1)
def hline(self, x, y, w, c):
super().hline(x, y, w, c)
self.register_updates(y)
def vline(self, x, y, h, c):
super().vline(x, y, h, c)
self.register_updates(y, y + h - 1)
def fill(self, c):
super().fill(c)
self.pages_to_update = (1 << self.pages) - 1
def blit(self, fbuf, x, y, key=-1, palette=None):
super().blit(fbuf, x, y, key, palette)
self.register_updates(y, y + self.height)
def scroll(self, x, y):
# my understanding is that scroll() does a full screen change
super().scroll(x, y)
self.pages_to_update = (1 << self.pages) - 1
# rect() and fill_rect() amended to be compatible with new rect() method
# from latest micropython as well as 1.20.0 and previous versions
def fill_rect(self, x, y, w, h, c):
try:
super().fill_rect(x, y, w, h, c)
except:
super().rect(x, y, w, h, c, f=True)
self.register_updates(y, y + h - 1)
def rect(self, x, y, w, h, c, f=None):
if f == None or f == False:
super().rect(x, y, w, h, c)
else:
try:
super().rect(x, y, w, h, c, f)
except:
super().fill_rect(x, y, w, h, c)
self.register_updates(y, y + h - 1)
def ellipse(self, x, y, xr, yr, c, *args, **kwargs):
super().ellipse(x, y, xr, yr, c, *args, **kwargs)
self.register_updates(y - yr, y + yr)
def poly(self, *args, **kwargs):
super().poly(*args, **kwargs)
self.pages_to_update = (1 << self.pages) - 1
# conditionally define optimisations for framebuf extension if loaded
if _fb_variant == 2:
def large_text(self, s, x, y, m, c=1, r=0, *args, **kwargs):
try:
super().large_text(s, x, y, m, c, r, *args, **kwargs)
except:
raise Exception("extended framebuffer v206+ required")
h = (8 * m) * (1 if r is None or r % 360 // 90 in (0, 2) else len(s))
self.register_updates(y, y + h - 1)
def circle(self, x, y, radius, c, f:bool = None):
super().circle(x, y, radius, c, f)
self.register_updates(y-radius, y+radius)
def triangle(self, x0, y0, x1, y1, x2, y2, c, f: bool = None):
super().triangle(x0, y0, x1, y1, x2, y2, c, f)
self.register_updates(min(y0, y1, y2), max(y0, y1, y2))
def register_updates(self, y0, y1=None):
y1 = min((y1 if y1 is not None else y0), self.height - 1)
# this function takes the top and optional bottom address of the changes made
# and updates the pages_to_change list with any changed pages
# that are not yet on the list
start_page = y0 // 8
end_page = (y1 // 8) if (y1 is not None) else start_page
# rearrange start_page and end_page if coordinates were given from bottom to top
if start_page > end_page:
start_page, end_page = end_page, start_page
# ensure that start and end page values for update are non-negative (-ve is off-screen)
if end_page >= 0:
if start_page < 0:
start_page = 0
for page in range(start_page, end_page + 1):
self.pages_to_update |= 1 << page
def reset(self, res):
if res is not None:
res(1)
time.sleep_ms(1) # sleep for 1 millisecond
res(0)
time.sleep_ms(20) # sleep for 20 milliseconds
res(1)
time.sleep_ms(20) # sleep for 20 milliseconds
class SH1107_I2C(SH1107):
def __init__(self, width, height, i2c, res=None, address=0x3d,
rotate=0, external_vcc=False, delay_ms=200):
self.i2c = i2c
self.address = address
self.res = res
if res is not None:
res.init(res.OUT, value=1)
super().__init__(width, height, external_vcc, delay_ms, rotate)
def write_command(self, command_list):
self.i2c.writeto(self.address, b"\x00" + command_list)
def write_data(self, buf):
self.i2c.writevto(self.address, (b"\x40", buf))
def reset(self):
super().reset(self.res)
class SH1107_SPI(SH1107):
def __init__(self, width, height, spi, dc, res=None, cs=None,
rotate=0, external_vcc=False, delay_ms=0):
dc.init(dc.OUT, value=0)
if res is not None:
res.init(res.OUT, value=0)
if cs is not None:
cs.init(cs.OUT, value=1)
self.spi = spi
self.dc = dc
self.res = res
self.cs = cs
super().__init__(width, height, external_vcc, delay_ms, rotate)
def write_command(self, cmd):
if self.cs is not None:
self.cs(1)
self.dc(0)
self.cs(0)
self.spi.write(cmd)
self.cs(1)
else:
self.dc(0)
self.spi.write(cmd)
def write_data(self, buf):
if self.cs is not None:
self.cs(1)
self.dc(1)
self.cs(0)
self.spi.write(buf)
self.cs(1)
else:
self.dc(1)
self.spi.write(buf)
def reset(self):
super().reset(self.res)