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koreader/frontend/device/sysfs_light.lua
NiLuJe 812e595608
Enable HW dithering in a few key places (#4541)
* Enable HW dithering on supported devices (Clara HD, Forma; Oasis 2, PW4)
  * FileManager and co. (where appropriate, i.e., when covers are shown)
  * Book Status
  * Reader, where appropriate:
    * CRe: on pages whith image content (for over 7.5% of the screen area, should hopefully leave stuff like bullet points or small scene breaks alone).
    * Other engines: on user-request (in the gear tab of the bottom menu), via the new "Dithering" knob (will only appear on supported devices).
  * ScreenSaver
  * ImageViewer
* Minimize repaints when flash_ui is enabled (by, almost everywhere, only repainting the flashing element, and not the toplevel window which hosts it).
  (The first pass of this involved fixing a few Button instances whose show_parent was wrong, in particular, chevrons in the FM & TopMenu).
* Hunted down a few redundant repaints (unneeded setDirty("all") calls),
  either by switching the widget to nil when only a refresh was needed, and not a repaint,
  or by passing the appropritate widget to setDirty.
  (Note to self: Enable *verbose* debugging to catch broken setDirty calls via its post guard).
  There were also a few instances of 'em right behind a widget close.
* Don't repaint the underlying widget when initially showing TopMenu & ConfigDialog.
  We unfortunately do need to do it when switching tabs, because of their variable heights.
* On Kobo, disabled the extra and completely useless full refresh before suspend/reboot/poweroff, as well as on resume. No more double refreshes!
* Fix another debug guard in Kobo sysfs_light
* Switch ImageWidget & ImageViewer mostly to "ui" updates, which will be better suited to image content pretty much everywhere, REAGL or not.

PS: (Almost 💯 commits! :D)
2019-02-07 01:14:37 +01:00

139 lines
4.4 KiB
Lua

-- Generic frontlight SysFS interface.
-- This also supports the natural light, which consists of additional
-- red and green light LEDs.
local logger = require("logger")
local dbg = require("dbg")
local SysfsLight = {
frontlight_white = nil,
frontlight_red = nil,
frontlight_green = nil,
frontlight_mixer = nil,
nl_min = nil,
nl_max = nil,
nl_inverted = nil,
current_brightness = 0,
current_warmth = 0,
white_gain = 25,
red_gain = 24,
green_gain = 24,
white_offset = -25,
red_offset = 0,
green_offset = -65,
exponent = 0.25,
}
function SysfsLight:new(o)
o = o or {}
setmetatable(o, self)
self.__index = self
if o.init then o:init() end
return o
end
function SysfsLight:setBrightness(brightness)
self:setNaturalBrightness(brightness, self.current_warmth)
end
dbg:guard(SysfsLight, 'setBrightness',
function(self, brightness)
assert(brightness >= 0 and brightness <= 100,
"Wrong brightness value given!")
end)
function SysfsLight:setWarmth(warmth)
self:setNaturalBrightness(self.current_brightness, warmth)
end
dbg:guard(SysfsLight, 'setWarmth',
function(self, warmth)
assert(warmth >= 0 and warmth <= 100,
"Wrong warmth value given!")
end)
function SysfsLight:setNaturalBrightness(brightness, warmth)
if not brightness then
brightness = self.current_brightness
end
if not warmth then
warmth = self.current_warmth
end
-- Newer devices use a mixer instead of writting values per color.
if self.frontlight_mixer then
-- Honor the device's scale, which may not be [0...100] (f.g., it's [0...10] on the Forma) ;).
warmth = math.floor(warmth / self.nl_max)
self:_write_value(self.frontlight_white, brightness)
-- And it may be inverted... (cold is nl_max, warm is nl_min)
if self.nl_inverted then
self:_write_value(self.frontlight_mixer, self.nl_max - warmth)
else
self:_write_value(self.frontlight_mixer, warmth)
end
else
local red = 0
local green = 0
local white = 0
if brightness > 0 then
-- On Nickel, the values for white/red/green are roughly linearly dependent
-- on the 4th root of brightness and warmth.
white = math.min(self.white_gain * math.pow(brightness, self.exponent) *
math.pow(100 - warmth, self.exponent) + self.white_offset, 255)
end
if warmth > 0 then
red = math.min(self.red_gain * math.pow(brightness, self.exponent) *
math.pow(warmth, self.exponent) + self.red_offset, 255)
green = math.min(self.green_gain * math.pow(brightness, self.exponent) *
math.pow(warmth, self.exponent) + self.green_offset, 255)
end
white = math.max(white, 0)
red = math.max(red, 0)
green = math.max(green, 0)
self:_set_light_value(self.frontlight_white, math.floor(white))
self:_set_light_value(self.frontlight_green, math.floor(green))
self:_set_light_value(self.frontlight_red, math.floor(red))
end
self.current_brightness = brightness
self.current_warmth = warmth
end
dbg:guard(SysfsLight, 'setNaturalBrightness',
function(self, brightness, warmth)
assert(brightness == nil or (brightness >= 0 and brightness <= 100),
"Wrong brightness value given!")
assert(warmth == nil or (warmth >= 0 and warmth <= 100),
"Wrong warmth value given!")
end)
function SysfsLight:_set_light_value(sysfs_directory, value)
if not sysfs_directory then return end
-- bl_power is '31' when the light is turned on, '0' otherwise.
if (value > 0) then
self:_write_value(sysfs_directory .. "/bl_power", 31)
else
self:_write_value(sysfs_directory .. "/bl_power", 0)
end
self:_write_value(sysfs_directory .. "/brightness", value)
end
function SysfsLight:_write_value(file, value)
local f = io.open(file, "w")
if not f then
logger.err("Could not open file: ", file)
return false
end
local ret, err_msg, err_code = f:write(value)
io.close(f)
if not ret then
logger.err("Write error: ", err_msg, err_code)
return false
end
return true
end
return SysfsLight