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kmk_firmware/kmk/extensions/oled.py
regicidal.plutophage 3c966dc69f It's smooth now!
2023-03-02 23:38:18 +00:00

219 lines
6.5 KiB
Python
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import busio
import gc
from supervisor import ticks_ms
import adafruit_displayio_ssd1306
import displayio
import terminalio
from adafruit_display_text import label
from kmk.extensions import Extension
from kmk.handlers.stock import passthrough as handler_passthrough
from kmk.keys import make_key
from kmk.kmktime import check_deadline
class OledEntryType:
TXT = 0
IMG = 1
class OledData:
def __init__(
self,
entries=None,
):
if entries is not None:
self.data = entries
@staticmethod
def oled_text_entry(
text='',
x=0,
y=0,
x_anchor=0.0,
y_anchor=0.0,
direction='LTR',
line_spacing=0.75,
inverted=False,
layer=None,
):
return {
0: text,
1: x,
2: y,
3: layer,
4: OledEntryType.TXT,
5: x_anchor,
6: y_anchor,
7: direction,
8: line_spacing,
9: inverted,
}
@staticmethod
def oled_image_entry(x=0, y=0, image='', layer=None):
odb = displayio.OnDiskBitmap(image)
return {
0: odb,
1: x,
2: y,
3: layer,
4: OledEntryType.IMG,
}
class Oled(Extension):
def __init__(
self,
views,
width=128,
height=32,
flip: bool = False,
device_address=0x3C,
brightness=0.8,
brightness_step=0.1,
dim_time=3,
off_time=6,
):
displayio.release_displays()
self.rotation = 180 if flip else 0
self._views = views.data
self._width = width
self._height = height
self._prevLayers = 0
self._device_address = device_address
self._brightness = brightness
self._brightness_step = brightness_step
self._timer_start = ticks_ms()
self._dark = False
self._go_dark = False
self._dim_time_ms = dim_time * 1000
self._off_time_ms = off_time * 1000
gc.collect()
make_key(
names=('OLED_BRI',), on_press=self._oled_bri, on_release=handler_passthrough
)
make_key(
names=('OLED_BRD',), on_press=self._oled_brd, on_release=handler_passthrough
)
def render_oled(self, layer, *args, **kwargs):
splash = displayio.Group()
for view in self._views:
if self._dark is False:
if view[3] == layer or view[3] is None:
if view[4] == OledEntryType.TXT:
splash.append(
label.Label(
terminalio.FONT,
text=view[0],
color=0xFFFFFF if not view[9] else 0x000000,
background_color=0x000000 if not view[9] else 0xFFFFFF,
anchor_point=(view[5], view[6]),
anchored_position=(
view[1] if not view[9] else view[1] + 1,
view[2],
),
label_direction=view[7],
line_spacing=view[8],
padding_left=1,
)
)
elif view[4] == OledEntryType.IMG:
splash.append(
displayio.TileGrid(
view[0],
pixel_shader=view[0].pixel_shader,
x=view[1],
y=view[2],
)
)
gc.collect()
self._display.show(splash)
def updateOLED(self, sandbox):
self.render_oled(sandbox.active_layers[0])
gc.collect()
def on_runtime_enable(self, sandbox):
return
def on_runtime_disable(self, sandbox):
return
def during_bootup(self, keyboard):
displayio.release_displays()
i2c = busio.I2C(keyboard.SCL, keyboard.SDA)
self._display = adafruit_displayio_ssd1306.SSD1306(
displayio.I2CDisplay(i2c, device_address=self._device_address),
width=self._width,
height=self._height,
rotation=self.rotation,
brightness=self._brightness,
)
self.render_oled(0)
return
def before_matrix_scan(self, sandbox):
self.dim()
if self._dark != self._go_dark or sandbox.active_layers[0] != self._prevLayers:
self._dark = self._go_dark
self._prevLayers = sandbox.active_layers[0]
self.updateOLED(sandbox)
return
def after_matrix_scan(self, keyboard):
if keyboard.matrix_update or keyboard.secondary_matrix_update:
self.timer_time_reset()
return
def before_hid_send(self, sandbox):
return
def after_hid_send(self, sandbox):
return
def on_powersave_enable(self, sandbox):
self._display.brightness = (
self._display.brightness / 2 if self._display.brightness > 0.5 else 0.2
)
return
def on_powersave_disable(self, sandbox):
self._display.brightness = (
self._brightness
) # Restore brightness to default or previous value
return
def _oled_bri(self, *args, **kwargs):
self._display.brightness = (
self._display.brightness + self._brightness_step
if self._display.brightness + self._brightness_step <= 1.0
else 1.0
)
self._brightness = self._display.brightness # Save current brightness
def _oled_brd(self, *args, **kwargs):
self._display.brightness = (
self._display.brightness - self._brightness_step
if self._display.brightness - self._brightness_step >= 0.1
else 0.1
)
self._brightness = self._display.brightness # Save current brightness
def timer_time_reset(self):
self._timer_start = ticks_ms()
def dim(self):
if not check_deadline(ticks_ms(), self._timer_start, self._off_time_ms):
self._go_dark = True
elif not check_deadline(ticks_ms(), self._timer_start, self._dim_time_ms):
if self._display.brightness > 0.2:
self._display.brightness = 0.2
else:
self._display.brightness = self._brightness
self._go_dark = False
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