mirror of
https://github.com/koreader/koreader
synced 2024-11-16 06:12:56 +00:00
1645 lines
69 KiB
Lua
1645 lines
69 KiB
Lua
--[[--
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This module manages widgets.
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]]
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local Device = require("device")
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local Event = require("ui/event")
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local Geom = require("ui/geometry")
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local dbg = require("dbg")
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local logger = require("logger")
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local ffiUtil = require("ffi/util")
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local util = require("util")
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local time = require("ui/time")
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local _ = require("gettext")
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local Input = Device.input
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local Screen = Device.screen
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local DEFAULT_FULL_REFRESH_COUNT = 6
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-- This is a singleton
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local UIManager = {
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-- trigger a full refresh when counter reaches FULL_REFRESH_COUNT
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FULL_REFRESH_COUNT =
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G_reader_settings:isTrue("night_mode") and G_reader_settings:readSetting("night_full_refresh_count") or G_reader_settings:readSetting("full_refresh_count") or DEFAULT_FULL_REFRESH_COUNT,
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refresh_count = 0,
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currently_scrolling = false,
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-- How long to wait between ZMQ wakeups: 50ms.
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ZMQ_TIMEOUT = 50 * 1000,
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event_handlers = nil,
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_now = time.now(),
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_window_stack = {},
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_task_queue = {},
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_task_queue_dirty = false,
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_dirty = {},
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_zeromqs = {},
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_refresh_stack = {},
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_refresh_func_stack = {},
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_entered_poweroff_stage = false,
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_exit_code = nil,
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_prevent_standby_count = 0,
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_prev_prevent_standby_count = 0,
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event_hook = require("ui/hook_container"):new()
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}
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function UIManager:init()
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self.event_handlers = {
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__default__ = function(input_event)
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self:sendEvent(input_event)
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end,
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SaveState = function()
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self:flushSettings()
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end,
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Power = function(input_event)
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Device:onPowerEvent(input_event)
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end,
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-- This is for hotpluggable evdev input devices (e.g., USB OTG)
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UsbDevicePlugIn = function(input_event)
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-- Retrieve the argument set by Input:handleKeyBoardEv
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local evdev = table.remove(Input.fake_event_args[input_event])
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self:broadcastEvent(Event:new("EvdevInputInsert", evdev))
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end,
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UsbDevicePlugOut = function(input_event)
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local evdev = table.remove(Input.fake_event_args[input_event])
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self:broadcastEvent(Event:new("EvdevInputRemove", evdev))
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end,
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}
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self.poweroff_action = function()
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self._entered_poweroff_stage = true
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logger.info("Powering off the device...")
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self:broadcastEvent(Event:new("Close"))
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local Screensaver = require("ui/screensaver")
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Screensaver:setup("poweroff", _("Powered off"))
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Screensaver:show()
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self:nextTick(function()
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Device:saveSettings()
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Device:powerOff()
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if Device:isKobo() then
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self:quit(88)
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else
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self:quit()
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end
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end)
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end
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self.reboot_action = function()
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self._entered_poweroff_stage = true
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logger.info("Rebooting the device...")
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self:broadcastEvent(Event:new("Close"))
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local Screensaver = require("ui/screensaver")
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Screensaver:setup("reboot", _("Rebooting…"))
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Screensaver:show()
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self:nextTick(function()
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Device:saveSettings()
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Device:reboot()
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if Device:isKobo() then
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self:quit(88)
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else
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self:quit()
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end
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end)
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end
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Device:_setEventHandlers(self)
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-- A simple wrapper for UIManager:quit()
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-- This may be overwritten by setRunForeverMode(); for testing purposes
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self._gated_quit = self.quit
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end
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--[[--
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Registers and shows a widget.
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Widgets are registered in a stack, from bottom to top in registration order,
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with a few tweaks to handle modals & toasts:
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toast widgets are stacked together on top,
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then modal widgets are stacked together, and finally come standard widgets.
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If you think about how painting will be handled (also bottom to top), this makes perfect sense ;).
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For more details about refreshtype, refreshregion & refreshdither see the description of `setDirty`.
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If refreshtype is omitted, no refresh will be enqueued at this time.
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@param widget a @{ui.widget.widget|widget} object
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@string refreshtype `"full"`, `"flashpartial"`, `"flashui"`, `"[partial]"`, `"[ui]"`, `"partial"`, `"ui"`, `"fast"`, `"a2"` (optional)
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@param refreshregion a rectangle @{ui.geometry.Geom|Geom} object (optional, requires refreshtype to be set)
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@int x horizontal screen offset (optional, `0` if omitted)
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@int y vertical screen offset (optional, `0` if omitted)
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@bool refreshdither `true` if widget requires dithering (optional, requires refreshtype to be set)
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@see setDirty
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]]
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function UIManager:show(widget, refreshtype, refreshregion, x, y, refreshdither)
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if not widget then
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logger.dbg("attempted to show a nil widget")
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return
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end
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logger.dbg("show widget:", widget.id or widget.name or tostring(widget))
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local window = {x = x or 0, y = y or 0, widget = widget}
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-- put this window on top of the topmost non-modal window
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for i = #self._window_stack, 0, -1 do
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local top_window = self._window_stack[i]
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-- toasts are stacked on top of other toasts,
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-- then come modals, and then other widgets
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if top_window and top_window.widget.toast then
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if widget.toast then
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table.insert(self._window_stack, i + 1, window)
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break
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end
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elseif widget.modal or not top_window or not top_window.widget.modal then
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table.insert(self._window_stack, i + 1, window)
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break
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end
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end
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-- and schedule it to be painted
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self:setDirty(widget, refreshtype, refreshregion, refreshdither)
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-- tell the widget that it is shown now
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widget:handleEvent(Event:new("Show"))
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-- check if this widget disables double tap gesture
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if widget.disable_double_tap == false then
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Input.disable_double_tap = false
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else
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Input.disable_double_tap = true
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end
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-- a widget may override tap interval (when it doesn't, nil restores the default)
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Input.tap_interval_override = widget.tap_interval_override
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end
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--[[--
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Unregisters a widget.
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It will be removed from the stack.
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Will flag uncovered widgets as dirty.
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For more details about refreshtype, refreshregion & refreshdither see the description of `setDirty`.
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If refreshtype is omitted, no extra refresh will be enqueued at this time, leaving only those from the uncovered widgets.
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@param widget a @{ui.widget.widget|widget} object
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@string refreshtype `"full"`, `"flashpartial"`, `"flashui"`, `"[partial]"`, `"[ui]"`, `"partial"`, `"ui"`, `"fast"`, `"a2"` (optional)
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@param refreshregion a rectangle @{ui.geometry.Geom|Geom} object (optional, requires refreshtype to be set)
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@bool refreshdither `true` if the refresh requires dithering (optional, requires refreshtype to be set)
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@see setDirty
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]]
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function UIManager:close(widget, refreshtype, refreshregion, refreshdither)
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if not widget then
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logger.dbg("attempted to close a nil widget")
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return
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end
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logger.dbg("close widget:", widget.name or widget.id or tostring(widget))
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local dirty = false
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-- First notify the closed widget to save its settings...
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widget:handleEvent(Event:new("FlushSettings"))
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-- ...and notify it that it ought to be gone now.
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widget:handleEvent(Event:new("CloseWidget"))
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-- Make sure it's disabled by default and check if there are any widgets that want it disabled or enabled.
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Input.disable_double_tap = true
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local requested_disable_double_tap = nil
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local is_covered = false
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local start_idx = 1
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-- Then remove all references to that widget on stack and refresh.
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for i = #self._window_stack, 1, -1 do
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local w = self._window_stack[i].widget
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if w == widget then
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self._dirty[w] = nil
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table.remove(self._window_stack, i)
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dirty = true
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else
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if not is_covered then
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-- If anything else on the stack not already hidden by (i.e., below) a fullscreen widget was dithered, honor the hint
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if w.dithered then
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refreshdither = true
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logger.dbg("Lower widget", w.name or w.id or tostring(w), "was dithered, honoring the dithering hint")
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end
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-- Remember the uppermost widget that covers the full screen, so we don't bother calling setDirty on hidden (i.e., lower) widgets in the following dirty loop.
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-- _repaint already does that later on to skip the actual paintTo calls, so this ensures we limit the refresh queue to stuff that will actually get painted.
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if w.covers_fullscreen then
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is_covered = true
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start_idx = i
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logger.dbg("Lower widget", w.name or w.id or tostring(w), "covers the full screen")
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if i > 1 then
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logger.dbg("not refreshing", i-1, "covered widget(s)")
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end
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end
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end
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-- Set double tap to how the topmost specifying widget wants it
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if requested_disable_double_tap == nil and w.disable_double_tap ~= nil then
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requested_disable_double_tap = w.disable_double_tap
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end
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end
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end
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if requested_disable_double_tap ~= nil then
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Input.disable_double_tap = requested_disable_double_tap
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end
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if self._window_stack[1] then
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-- set tap interval override to what the topmost widget specifies (when it doesn't, nil restores the default)
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Input.tap_interval_override = self._window_stack[#self._window_stack].widget.tap_interval_override
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end
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if dirty and not widget.invisible then
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-- schedule the remaining visible (i.e., uncovered) widgets to be painted
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for i = start_idx, #self._window_stack do
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self:setDirty(self._window_stack[i].widget)
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end
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self:_refresh(refreshtype, refreshregion, refreshdither)
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end
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end
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-- Schedule an execution task; task queue is in descending order
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function UIManager:schedule(sched_time, action, ...)
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local lo, hi = 1, #self._task_queue
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-- Leftmost binary insertion
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while lo <= hi do
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-- NOTE: We should be (mostly) free from overflow here, thanks to LuaJIT's BitOp semantics.
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-- For more fun details about this particular overflow,
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-- c.f., https://ai.googleblog.com/2006/06/extra-extra-read-all-about-it-nearly.html
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-- NOTE: For more fun reading about the binary search algo in general,
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-- c.f., https://reprog.wordpress.com/2010/04/19/are-you-one-of-the-10-percent/
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local mid = bit.rshift(lo + hi, 1)
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local mid_time = self._task_queue[mid].time
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if mid_time <= sched_time then
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hi = mid - 1
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else
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lo = mid + 1
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end
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end
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table.insert(self._task_queue, lo, {
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time = sched_time,
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action = action,
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args = table.pack(...),
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})
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self._task_queue_dirty = true
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end
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dbg:guard(UIManager, 'schedule',
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function(self, sched_time, action)
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assert(sched_time >= 0, "Only positive time allowed")
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assert(action ~= nil, "No action")
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end)
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--[[--
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Schedules a task to be run a certain amount of seconds from now.
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@number seconds scheduling delay in seconds (supports decimal values, 1ms resolution).
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@func action reference to the task to be scheduled (may be anonymous)
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@param ... optional arguments passed to action
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@see unschedule
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]]
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function UIManager:scheduleIn(seconds, action, ...)
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-- We might run significantly late inside an UI frame, so we can't use the cached value here.
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-- It would also cause some bad interactions with the way nextTick & co behave.
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local when = time.now() + time.s(seconds)
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self:schedule(when, action, ...)
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end
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dbg:guard(UIManager, 'scheduleIn',
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function(self, seconds, action)
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assert(seconds >= 0, "Only positive seconds allowed")
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end)
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--[[--
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Schedules a task for the next UI tick.
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@func action reference to the task to be scheduled (may be anonymous)
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@param ... optional arguments passed to action
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@see scheduleIn
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]]
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function UIManager:nextTick(action, ...)
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return self:scheduleIn(0, action, ...)
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end
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--[[--
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Schedules a task to be run two UI ticks from now.
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Useful to run UI callbacks ASAP without skipping repaints.
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@func action reference to the task to be scheduled (may be anonymous)
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@param ... optional arguments passed to action
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@return A reference to the initial nextTick wrapper function,
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necessary if the caller wants to unschedule action *before* it actually gets inserted in the task queue by nextTick.
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@see nextTick
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]]
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function UIManager:tickAfterNext(action, ...)
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-- We need to keep a reference to this anonymous function, as it is *NOT* quite `action` yet,
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-- and the caller might want to unschedule it early...
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local action_wrapper = function(...)
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self:nextTick(action, ...)
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end
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self:nextTick(action_wrapper, ...)
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return action_wrapper
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end
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--[[
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-- NOTE: This appears to work *nearly* just as well, but does sometimes go too fast (might depend on kernel HZ & NO_HZ settings?)
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function UIManager:tickAfterNext(action)
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return self:scheduleIn(0.001, action)
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end
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--]]
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function UIManager:debounce(seconds, immediate, action)
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-- Ported from underscore.js
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local args = nil
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local previous_call_at = nil
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local is_scheduled = false
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local result = nil
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local scheduled_action
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scheduled_action = function()
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local passed_from_last_call = time:now() - previous_call_at
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if seconds > passed_from_last_call then
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self:scheduleIn(seconds - passed_from_last_call, scheduled_action)
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is_scheduled = true
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else
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is_scheduled = false
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if not immediate then
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result = action(unpack(args))
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end
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if not is_scheduled then
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-- This check is needed because action can recursively call debounced_action_wrapper
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args = nil
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end
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end
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end
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local debounced_action_wrapper = function(...)
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args = table.pack(...)
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previous_call_at = time:now()
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if not is_scheduled then
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self:scheduleIn(seconds, scheduled_action)
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is_scheduled = true
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if immediate then
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result = action(unpack(args))
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end
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end
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return result
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end
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return debounced_action_wrapper
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end
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--[[--
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Unschedules a previously scheduled task.
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In order to unschedule anonymous functions, store a reference.
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@func action
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@see scheduleIn
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@usage
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self.anonymousFunction = function() self:regularFunction() end
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UIManager:scheduleIn(10.5, self.anonymousFunction)
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UIManager:unschedule(self.anonymousFunction)
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]]
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function UIManager:unschedule(action)
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local removed = false
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for i = #self._task_queue, 1, -1 do
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if self._task_queue[i].action == action then
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table.remove(self._task_queue, i)
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removed = true
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end
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end
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return removed
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end
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dbg:guard(UIManager, 'unschedule',
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function(self, action) assert(action ~= nil) end)
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--[[--
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Mark a window-level widget as dirty, enqueuing a repaint & refresh request for that widget, to be processed on the next UI tick.
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The second parameter (refreshtype) can either specify a refreshtype
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(optionally in combination with a refreshregion - which is suggested,
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and an even more optional refreshdither flag if the content requires dithering);
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or a function that returns a refreshtype, refreshregion tuple (or a refreshtype, refreshregion, refreshdither triple),
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which will be called *after* painting the widget.
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This is an interesting distinction, because a widget's geometry,
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usually stored in a field named `dimen`, is (generally) only computed at painting time (e.g., during `paintTo`).
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The TL;DR being: if you already know the region, you can pass everything by value directly,
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(it'll make for slightly more readable debug logs),
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but if the region will only be known after the widget has been painted, pass a function.
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Note that, technically, it means that stuff passed by value will be enqueued earlier in the refresh stack.
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In practice, since the stack of (both types of) refreshes is optimized into as few actual refresh ioctls as possible,
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and that during the next `_repaint` tick (which is when `paintTo` for dirty widgets happens),
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this shouldn't change much in the grand scheme of things, but it ought to be noted ;).
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See `_repaint` for more details about how the repaint & refresh queues are processed,
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and `handleInput` for more details about when those queues are actually drained.
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What you should essentially remember is that `setDirty` doesn't actually "do" anything visible on its own.
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It doesn't block, and when it returns, nothing new has actually been painted or refreshed.
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It just appends stuff to the paint and/or refresh queues.
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Here's a quick rundown of what each refreshtype should be used for:
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* `full`: high-fidelity flashing refresh (e.g., large images).
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Highest quality, but highest latency.
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Don't abuse if you only want a flash (in this case, prefer `flashui` or `flashpartial`).
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* `partial`: medium fidelity refresh (e.g., text on a white background).
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Can be promoted to flashing after `FULL_REFRESH_COUNT` refreshes.
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Don't abuse to avoid spurious flashes.
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In practice, this means this should mostly always be limited to ReaderUI.
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* `[partial]`: variant of partial that asks the driver not to merge this update with surrounding ones.
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Equivalent to partial on platforms where this distinction is not implemented.
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* `ui`: medium fidelity refresh (e.g., mixed content).
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Should apply to most UI elements.
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When in doubt, use this.
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* `[ui]`: variant of ui that asks the driver not to merge this update with surrounding ones.
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Equivalent to ui on platforms where this distinction is not implemented.
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* `fast`: low fidelity refresh (e.g., monochrome content (technically, from any to B&W)).
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Should apply to most highlighting effects achieved through inversion.
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Note that if your highlighted element contains text,
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you might want to keep the unhighlight refresh as `"ui"` instead, for crisper text.
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(Or optimize that refresh away entirely, if you can get away with it).
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* `a2`: low fidelity refresh (e.g., monochrome content (technically, from B&W to B&W only)).
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Should be limited to very specific use-cases (e.g., keyboard)
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* `flashui`: like `ui`, but flashing.
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Can be used when showing a UI element for the first time, or when closing one, to avoid ghosting.
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* `flashpartial`: like `partial`, but flashing (and not counting towards flashing promotions).
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Can be used when closing an UI element (usually over ReaderUI), to avoid ghosting.
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You can even drop the region in these cases, to ensure a fullscreen flash.
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NOTE: On REAGL devices, `flashpartial` will NOT actually flash (by design).
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As such, even onCloseWidget, you might prefer `flashui` in most instances.
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NOTE: You'll notice a trend on UI elements that are usually shown *over* some kind of text (generally ReaderUI)
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of using `"ui"` onShow & onUpdate, but `"partial"` onCloseWidget.
|
|
This is by design: `"partial"` is what the reader (ReaderUI) uses, as it's tailor-made for pure text
|
|
over a white background, so this ensures we resume the usual flow of the reader.
|
|
The same dynamic is true for their flashing counterparts, in the rare instances we enforce flashes.
|
|
Any kind of `"partial"` refresh *will* count towards a flashing promotion after `FULL_REFRESH_COUNT` refreshes,
|
|
so making sure your stuff only applies to the proper region is key to avoiding spurious large black flashes.
|
|
That said, depending on your use case, using `"ui"` onCloseWidget can be a perfectly valid decision,
|
|
and will ensure never seeing a flash because of that widget.
|
|
Remember that the FM uses `"ui"`, so, if said widgets are shown over the FM,
|
|
prefer using `"ui"` or `"flashui"` onCloseWidget.
|
|
|
|
The final parameter (refreshdither) is an optional hint for devices with hardware dithering support that this repaint
|
|
could benefit from dithering (e.g., because it contains an image).
|
|
|
|
As far as the actual lifecycle of a widget goes, the rules are:
|
|
|
|
* What you `show`, you `close`.
|
|
* If you know the dimensions of the widget (or simply of the region you want to refresh), you can pass it directly:
|
|
* to `show` (as `show` calls `setDirty`),
|
|
* to `close` (as `close` will also call `setDirty` on the remaining dirty and visible widgets,
|
|
and will also enqueue a refresh based on that if there are dirty widgets).
|
|
* Otherwise, you can use, respectively, a widget's `Show` & `CloseWidget` handlers for that via `setDirty` calls.
|
|
This can also be useful if *child* widgets have specific needs (e.g., flashing, dithering) that they want to inject in the refresh queue.
|
|
* Remember that events propagate children first (in array order, starting at the top), and that if *any* event handler returns true,
|
|
the propagation of that specific event for this widget tree stops *immediately*.
|
|
(This generally means that, unless you know what you're doing (e.g., a widget that will *always* be used as a parent),
|
|
you generally *don't* want to return true in `Show` or `CloseWidget` handlers).
|
|
* If any widget requires freeing non-Lua resources (e.g., FFI/C), having a `free` method called from its `CloseWidget` handler is ideal:
|
|
this'll ensure that *any* widget including it will be sure that resources are freed when it (or its parent) are closed.
|
|
* Note that there *is* a `Close` event, but it has very specific use-cases, generally involving *programmatically* `close`ing a `show`n widget:
|
|
* It is broadcast (e.g., sent to every widget in the window stack; the same rules about propagation apply, but only per *window-level widget*)
|
|
at poweroff/reboot.
|
|
* It can also be used as a keypress handler by @{ui.widget.container.inputcontainer|InputContainer}, generally bound to the Back key.
|
|
|
|
Please refrain from implementing custom `onClose` methods if that's not their intended purpose ;).
|
|
|
|
On the subject of widgets and child widgets,
|
|
you might have noticed an unspoken convention across the codebase of widgets having a field called `show_parent`.
|
|
Since handling this is entirely at the programmer's behest, here's how we usually use it:
|
|
Basically, we cascade a field named `show_parent` to every child widget that matter
|
|
(e.g., those that serve an UI purpose, as opposed to, say, a container).
|
|
This ensures that every subwidget can reference its actual parent
|
|
(ideally, all the way to the window-level widget it belongs to, i.e., the one that was passed to `show`, hence the name ;)),
|
|
to, among other things, flag the right widget for repaint via `setDirty` (c.f., those pesky debug warnings when that's done wrong ;p) when they want to request a repaint.
|
|
This is why you often see stuff doing, when instantiating a new widget, `FancyWidget:new{ show_parent = self.show_parent or self }`;
|
|
meaning, if I'm already a subwidget, cascade my parent, otherwise, it means I'm a window-level widget, so cascade myself as that widget's parent ;).
|
|
|
|
Another convention (that a few things rely on) is naming a (persistent) MovableContainer wrapping a full widget `movable`, accessible as an instance field.
|
|
This is useful when it's used for transparency purposes, which, e.g., `setDirty` and @{ui.widget.button|Button} rely on to handle updating translucent widgets properly,
|
|
by checking if self.show_parent.movable exists and is currently translucent ;).
|
|
|
|
When I mentioned passing the *right* widget to `setDirty` earlier, what I meant is that `setDirty` will only actually flag a widget for repaint
|
|
*if* that widget is a window-level widget (that is, a widget that was passed to `show` earlier and hasn't been `close`'d yet),
|
|
hence the `self.show_parent` convention detailed above to get at the proper widget from within a subwidget ;).
|
|
Otherwise, you'll notice in debug mode that a debug guard will shout at you if that contract is broken,
|
|
and what happens in practice is the same thing as if an explicit `nil` were passed: no widgets will actually be flagged for repaint,
|
|
and only the *refresh* matching the requested region *will* be enqueued.
|
|
This is why you'll find a number of valid use-cases for passing a `nil` here, when you *just* want a screen refresh without a repaint :).
|
|
The string `"all"` is also accepted in place of a widget, and will do the obvious thing: flag the *full* window stack, bottom to top, for repaint,
|
|
while still honoring the refresh region (e.g., this doesn't enforce a full-screen refresh).
|
|
|
|
@usage
|
|
|
|
UIManager:setDirty(self.widget, "partial")
|
|
UIManager:setDirty(self.widget, "partial", Geom:new{x=10,y=10,w=100,h=50})
|
|
UIManager:setDirty(self.widget, function() return "ui", self.someelement.dimen end)
|
|
|
|
@param widget a window-level widget object, `"all"`, or `nil`
|
|
@param refreshtype `"full"`, `"flashpartial"`, `"flashui"`, `"[partial]"`, `"[ui]"`, `"partial"`, `"ui"`, `"fast"`, `"a2"` (or a lambda, see description above)
|
|
@param refreshregion a rectangle @{ui.geometry.Geom|Geom} object (optional, omitting it means the region will cover the full screen)
|
|
@bool refreshdither `true` if widget requires dithering (optional)
|
|
]]
|
|
function UIManager:setDirty(widget, refreshtype, refreshregion, refreshdither)
|
|
local widget_name
|
|
if widget then
|
|
widget_name = widget.name or widget.id or tostring(widget)
|
|
if widget == "all" then
|
|
-- special case: set all top-level widgets as being "dirty".
|
|
for _, window in ipairs(self._window_stack) do
|
|
local w = window.widget
|
|
self._dirty[w] = true
|
|
-- If any of 'em were dithered, honor their dithering hint
|
|
if w.dithered then
|
|
-- NOTE: That works when refreshtype is NOT a function,
|
|
-- which is why _repaint does another pass of this check ;).
|
|
logger.dbg("setDirty on all widgets: found a dithered widget, infecting the refresh queue")
|
|
refreshdither = true
|
|
end
|
|
end
|
|
elseif not widget.invisible then
|
|
-- NOTE: If our widget is translucent, or belongs to a translucent MovableContainer,
|
|
-- we'll want to flag everything below it as dirty, too,
|
|
-- because doing transparency right requires having an up to date background against which to blend.
|
|
-- (The typecheck is because some widgets use an alpha boolean trap for internal alpha handling (e.g., ImageWidget)).
|
|
local handle_alpha = false
|
|
-- NOTE: We only ever check the dirty flag on top-level widgets, so only set it there!
|
|
-- Enable verbose debug to catch misbehaving widgets via our post-guard.
|
|
for i = #self._window_stack, 1, -1 do
|
|
local w = self._window_stack[i].widget
|
|
if handle_alpha then
|
|
self._dirty[w] = true
|
|
logger.dbg("setDirty: Marking as dirty widget:", w.name or w.id or tostring(w), "because it's below translucent widget:", widget_name)
|
|
-- Stop flagging widgets at the uppermost one that covers the full screen
|
|
if w.covers_fullscreen then
|
|
break
|
|
end
|
|
end
|
|
|
|
if w == widget then
|
|
self._dirty[widget] = true
|
|
|
|
-- We've got a match, now check if it's translucent...
|
|
handle_alpha = (widget.alpha and type(widget.alpha) == "number" and widget.alpha < 1 and widget.alpha > 0)
|
|
or (widget.movable and widget.movable.alpha and widget.movable.alpha < 1 and widget.movable.alpha > 0)
|
|
-- We shouldn't be seeing the same widget at two different spots in the stack, so, we're done,
|
|
-- except when we need to keep looping to flag widgets below us in order to handle a translucent widget...
|
|
if not handle_alpha then
|
|
break
|
|
end
|
|
end
|
|
end
|
|
-- Again, if it's flagged as dithered, honor that
|
|
if widget.dithered then
|
|
refreshdither = true
|
|
end
|
|
end
|
|
else
|
|
-- Another special case: if we did NOT specify a widget, but requested a full refresh nonetheless (i.e., a diagonal swipe),
|
|
-- we'll want to check the window stack in order to honor dithering...
|
|
if refreshtype == "full" then
|
|
for i = #self._window_stack, 1, -1 do
|
|
-- If any of 'em were dithered, honor their dithering hint
|
|
if self._window_stack[i].widget.dithered then
|
|
logger.dbg("setDirty full on no specific widget: found a dithered widget, infecting the refresh queue")
|
|
refreshdither = true
|
|
-- One is enough ;)
|
|
break
|
|
end
|
|
end
|
|
end
|
|
end
|
|
-- handle refresh information
|
|
if type(refreshtype) == "function" then
|
|
-- callback, will be issued after painting
|
|
table.insert(self._refresh_func_stack, refreshtype)
|
|
if dbg.is_on then
|
|
-- NOTE: It's too early to tell what the function will return (especially the region), because the widget hasn't been painted yet.
|
|
-- Consuming the lambda now also appears have nasty side-effects that render it useless later, subtly breaking a whole lot of things...
|
|
-- Thankfully, we can track them in _refresh()'s logging very soon after that...
|
|
logger.dbg("setDirty via a func from widget", widget_name)
|
|
end
|
|
else
|
|
-- otherwise, enqueue refresh
|
|
self:_refresh(refreshtype, refreshregion, refreshdither)
|
|
if dbg.is_on then
|
|
if refreshregion then
|
|
logger.dbg("setDirty", refreshtype, "from widget", widget_name, "w/ region", refreshregion.x, refreshregion.y, refreshregion.w, refreshregion.h, "dithering:", refreshdither)
|
|
else
|
|
logger.dbg("setDirty", refreshtype, "from widget", widget_name, "w/ NO region; dithering:", refreshdither)
|
|
end
|
|
end
|
|
end
|
|
end
|
|
--[[
|
|
-- NOTE: While nice in theory, this is *extremely* verbose in practice,
|
|
-- because most widgets will call setDirty at least once during their initialization,
|
|
-- and that happens before they make it to the window stack...
|
|
-- Plus, setDirty(nil, ...) is a completely valid use-case with documented semantics...
|
|
dbg:guard(UIManager, 'setDirty',
|
|
nil,
|
|
function(self, widget, refreshtype, refreshregion, refreshdither)
|
|
if not widget or widget == "all" then return end
|
|
-- when debugging, we check if we were handed a valid window-level widget,
|
|
-- which would be a widget that was previously passed to `show`.
|
|
local found = false
|
|
for i = 1, #self._window_stack do
|
|
if self._window_stack[i].widget == widget then
|
|
found = true
|
|
break
|
|
end
|
|
end
|
|
if not found then
|
|
dbg:v("INFO: invalid widget for setDirty()", debug.traceback())
|
|
end
|
|
end)
|
|
--]]
|
|
|
|
--[[--
|
|
Clear the full repaint & refresh queues.
|
|
|
|
NOTE: Beware! This doesn't take any prisonners!
|
|
You shouldn't have to resort to this unless in very specific circumstances!
|
|
plugins/coverbrowser.koplugin/covermenu.lua building a franken-menu out of buttondialogtitle & buttondialog
|
|
and wanting to avoid inheriting their original paint/refresh cycle being a prime example.
|
|
--]]
|
|
function UIManager:clearRenderStack()
|
|
logger.dbg("clearRenderStack: Clearing the full render stack!")
|
|
self._dirty = {}
|
|
self._refresh_func_stack = {}
|
|
self._refresh_stack = {}
|
|
end
|
|
|
|
function UIManager:insertZMQ(zeromq)
|
|
table.insert(self._zeromqs, zeromq)
|
|
return zeromq
|
|
end
|
|
|
|
function UIManager:removeZMQ(zeromq)
|
|
for i = #self._zeromqs, 1, -1 do
|
|
if self._zeromqs[i] == zeromq then
|
|
table.remove(self._zeromqs, i)
|
|
end
|
|
end
|
|
end
|
|
|
|
--[[--
|
|
Sets the full refresh rate for e-ink screens (`FULL_REFRESH_COUNT`).
|
|
|
|
This is the amount of `"partial"` refreshes before the next one gets promoted to `"full"`.
|
|
|
|
Also makes the refresh rate persistent in global reader settings.
|
|
|
|
@see setDirty
|
|
--]]
|
|
function UIManager:setRefreshRate(rate, night_rate)
|
|
logger.dbg("set screen full refresh rate", rate, night_rate)
|
|
|
|
if G_reader_settings:isTrue("night_mode") then
|
|
if night_rate then
|
|
self.FULL_REFRESH_COUNT = night_rate
|
|
end
|
|
else
|
|
if rate then
|
|
self.FULL_REFRESH_COUNT = rate
|
|
end
|
|
end
|
|
|
|
if rate then
|
|
G_reader_settings:saveSetting("full_refresh_count", rate)
|
|
end
|
|
if night_rate then
|
|
G_reader_settings:saveSetting("night_full_refresh_count", night_rate)
|
|
end
|
|
end
|
|
|
|
--- Returns the full refresh rate for e-ink screens (`FULL_REFRESH_COUNT`).
|
|
function UIManager:getRefreshRate()
|
|
return G_reader_settings:readSetting("full_refresh_count") or DEFAULT_FULL_REFRESH_COUNT, G_reader_settings:readSetting("night_full_refresh_count") or G_reader_settings:readSetting("full_refresh_count") or DEFAULT_FULL_REFRESH_COUNT
|
|
end
|
|
|
|
--- Toggles Night Mode (i.e., inverted rendering).
|
|
function UIManager:ToggleNightMode(night_mode)
|
|
if night_mode then
|
|
self.FULL_REFRESH_COUNT = G_reader_settings:readSetting("night_full_refresh_count") or G_reader_settings:readSetting("full_refresh_count") or DEFAULT_FULL_REFRESH_COUNT
|
|
else
|
|
self.FULL_REFRESH_COUNT = G_reader_settings:readSetting("full_refresh_count") or DEFAULT_FULL_REFRESH_COUNT
|
|
end
|
|
end
|
|
|
|
--- Get n.th topmost widget
|
|
function UIManager:getNthTopWidget(n)
|
|
n = n and n-1 or 0
|
|
if #self._window_stack - n < 1 then
|
|
-- No or not enough widgets in the stack, bye!
|
|
return nil
|
|
end
|
|
|
|
local widget = self._window_stack[#self._window_stack - n].widget
|
|
return widget
|
|
end
|
|
|
|
--[[--
|
|
Get the *second* topmost widget, if there is one (name if possible, ref otherwise).
|
|
|
|
Useful when VirtualKeyboard is involved, as it *always* steals the top spot ;).
|
|
|
|
NOTE: Will skip over VirtualKeyboard instances, plural, in case there are multiple (because, apparently, we can do that.. ugh).
|
|
--]]
|
|
function UIManager:getSecondTopmostWidget()
|
|
if #self._window_stack < 2 then
|
|
-- Not enough widgets in the stack, bye!
|
|
return nil
|
|
end
|
|
|
|
-- Because everything is terrible, you can actually instantiate multiple VirtualKeyboards,
|
|
-- and they'll stack at the top, so, loop until we get something that *isn't* VK...
|
|
for i = #self._window_stack - 1, 1, -1 do
|
|
local widget = self._window_stack[i].widget
|
|
|
|
if widget.name then
|
|
if widget.name ~= "VirtualKeyboard" then
|
|
return widget.name
|
|
end
|
|
-- Meaning if name is set, and is set to VK => continue, as we want the *next* widget.
|
|
-- I *really* miss the continue keyword, Lua :/.
|
|
else
|
|
return widget
|
|
end
|
|
end
|
|
|
|
return nil
|
|
end
|
|
|
|
--- Check if a widget is still in the window stack, or is a subwidget of a widget still in the window stack.
|
|
function UIManager:isSubwidgetShown(widget, max_depth)
|
|
for i = #self._window_stack, 1, -1 do
|
|
local w = self._window_stack[i].widget
|
|
local matched, depth = util.arrayReferences(w, widget, max_depth)
|
|
if matched then
|
|
return matched, depth, w
|
|
end
|
|
end
|
|
return false
|
|
end
|
|
|
|
--- Same as `isSubwidgetShown`, but only check window-level widgets (e.g., what's directly registered in the window stack), don't recurse.
|
|
function UIManager:isWidgetShown(widget)
|
|
for i = #self._window_stack, 1, -1 do
|
|
if self._window_stack[i].widget == widget then
|
|
return true
|
|
end
|
|
end
|
|
return false
|
|
end
|
|
|
|
--- Signals to quit.
|
|
-- An exit_code of false is not allowed.
|
|
function UIManager:quit(exit_code)
|
|
if exit_code == false then
|
|
logger.err("UIManager:quit() called with false")
|
|
return
|
|
end
|
|
-- Also honor older exit codes; default to 0
|
|
self._exit_code = exit_code or self._exit_code or 0
|
|
logger.info("quitting uimanager with exit code:", self._exit_code)
|
|
self._task_queue_dirty = false
|
|
self._window_stack = {}
|
|
self._task_queue = {}
|
|
for i = #self._zeromqs, 1, -1 do
|
|
self._zeromqs[i]:stop()
|
|
end
|
|
self._zeromqs = {}
|
|
if self.looper then
|
|
self.looper:close()
|
|
self.looper = nil
|
|
end
|
|
return self._exit_code
|
|
end
|
|
dbg:guard(UIManager, 'quit',
|
|
function(self, exit_code)
|
|
assert(exit_code ~= false, "exit_code == false is not supported")
|
|
end)
|
|
|
|
-- Disable automatic UIManager quit; for testing purposes
|
|
function UIManager:setRunForeverMode()
|
|
self._gated_quit = function() return false end
|
|
end
|
|
|
|
-- Enable automatic UIManager quit; for testing purposes
|
|
function UIManager:unsetRunForeverMode()
|
|
self._gated_quit = self.quit
|
|
end
|
|
|
|
--[[--
|
|
Transmits an @{ui.event.Event|Event} to active widgets, top to bottom.
|
|
Stops at the first handler that returns `true`.
|
|
Note that most complex widgets are based on @{ui.widget.container.WidgetContainer|WidgetContainer},
|
|
which itself will take care of propagating an event to its members.
|
|
|
|
@param event an @{ui.event.Event|Event} object
|
|
]]
|
|
function UIManager:sendEvent(event)
|
|
local top_widget
|
|
local checked_widgets = {}
|
|
-- Toast widgets, which, by contract, must be at the top of the window stack, never stop event propagation.
|
|
for i = #self._window_stack, 1, -1 do
|
|
local widget = self._window_stack[i].widget
|
|
-- Whether it's a toast or not, we'll call handleEvent now,
|
|
-- so we'll want to skip it during the table walk later.
|
|
checked_widgets[widget] = true
|
|
if widget.toast then
|
|
-- We never stop event propagation on toasts, but we still want to send the event to them.
|
|
-- (In particular, because we want them to close on user input).
|
|
widget:handleEvent(event)
|
|
else
|
|
-- The first widget to consume events as designed is the topmost non-toast one
|
|
top_widget = widget
|
|
break
|
|
end
|
|
end
|
|
|
|
-- Extremely unlikely, but we can't exclude the possibility of *everything* being a toast ;).
|
|
-- In which case, the event has nowhere else to go, so, we're done.
|
|
if not top_widget then
|
|
return
|
|
end
|
|
|
|
if top_widget:handleEvent(event) then
|
|
return
|
|
end
|
|
if top_widget.active_widgets then
|
|
for _, active_widget in ipairs(top_widget.active_widgets) do
|
|
if active_widget:handleEvent(event) then
|
|
return
|
|
end
|
|
end
|
|
end
|
|
|
|
-- If the event was not consumed (no handler returned true), active widgets (from top to bottom) can access it.
|
|
-- NOTE: _window_stack can shrink/grow when widgets are closed (CloseWidget & Close events) or opened.
|
|
-- Simply looping in reverse would only cover the list shrinking, and that only by a *single* element,
|
|
-- something we can't really guarantee, hence the more dogged iterator below,
|
|
-- which relies on a hash check of already processed widgets (LuaJIT actually hashes the table's GC reference),
|
|
-- rather than a simple loop counter, and will in fact iterate *at least* #items ^ 2 times.
|
|
-- Thankfully, that list should be very small, so the overhead should be minimal.
|
|
local i = #self._window_stack
|
|
while i > 0 do
|
|
local widget = self._window_stack[i].widget
|
|
if not checked_widgets[widget] then
|
|
checked_widgets[widget] = true
|
|
-- Widget's active widgets have precedence to handle this event
|
|
-- NOTE: ReaderUI & FileManager *may* optionally register their modules as such
|
|
-- (currently, they only do that for the Screenshot module).
|
|
if widget.active_widgets then
|
|
for _, active_widget in ipairs(widget.active_widgets) do
|
|
if active_widget:handleEvent(event) then
|
|
return
|
|
end
|
|
end
|
|
end
|
|
if widget.is_always_active then
|
|
-- Widget itself is flagged always active, let it handle the event
|
|
-- NOTE: is_always_active widgets are currently widgets that want to show a VirtualKeyboard or listen to Dispatcher events
|
|
if widget:handleEvent(event) then
|
|
return
|
|
end
|
|
end
|
|
-- As mentioned above, event handlers might have shown/closed widgets,
|
|
-- so all bets are off on our old window tally being accurate, so let's take it from the top again ;).
|
|
i = #self._window_stack
|
|
else
|
|
i = i - 1
|
|
end
|
|
end
|
|
end
|
|
|
|
--[[--
|
|
Transmits an @{ui.event.Event|Event} to all registered widgets.
|
|
|
|
@param event an @{ui.event.Event|Event} object
|
|
]]
|
|
function UIManager:broadcastEvent(event)
|
|
-- Unlike sendEvent, we send the event to *all* (window-level) widgets (i.e., we don't stop, even if a handler returns true).
|
|
-- NOTE: Same defensive approach to _window_stack changing from under our feet as above.
|
|
local checked_widgets = {}
|
|
local i = #self._window_stack
|
|
while i > 0 do
|
|
local widget = self._window_stack[i].widget
|
|
if not checked_widgets[widget] then
|
|
checked_widgets[widget] = true
|
|
widget:handleEvent(event)
|
|
i = #self._window_stack
|
|
else
|
|
i = i - 1
|
|
end
|
|
end
|
|
end
|
|
|
|
--[[
|
|
function UIManager:getNextTaskTimes(count)
|
|
count = math.min(count or 1, #self._task_queue)
|
|
local times = {}
|
|
for i = 1, count do
|
|
times[i] = self._task_queue[i].time - time.now()
|
|
end
|
|
return times
|
|
end
|
|
--]]
|
|
|
|
function UIManager:getNextTaskTime()
|
|
local next_task = self._task_queue[#self._task_queue]
|
|
if next_task then
|
|
return next_task.time - time:now()
|
|
end
|
|
end
|
|
|
|
function UIManager:_checkTasks()
|
|
self._now = time.now()
|
|
local wait_until = nil
|
|
|
|
-- Tasks due for execution might themselves schedule more tasks (that might also be immediately due for execution ;)).
|
|
-- Flipping this switch ensures we'll consume all such tasks *before* yielding to input polling.
|
|
self._task_queue_dirty = false
|
|
while self._task_queue[1] do
|
|
local task_time = self._task_queue[#self._task_queue].time
|
|
if task_time <= self._now then
|
|
-- Remove the upcoming task, as it is due for execution...
|
|
local task = table.remove(self._task_queue)
|
|
-- ...so do it now.
|
|
-- NOTE: Said task's action might modify _task_queue.
|
|
-- To avoid race conditions and catch new upcoming tasks during this call,
|
|
-- we repeatedly check the head of the queue (c.f., #1758).
|
|
task.action(unpack(task.args))
|
|
else
|
|
-- As the queue is sorted in descending order, it's safe to assume all items are currently future tasks.
|
|
wait_until = task_time
|
|
break
|
|
end
|
|
end
|
|
|
|
return wait_until, self._now
|
|
end
|
|
|
|
--[[--
|
|
Returns a time (fts) corresponding to the last tick.
|
|
|
|
This is essentially a cached time.now(), computed at the top of every iteration of the main UI loop,
|
|
(right before checking/running scheduled tasks).
|
|
This is mainly useful to compute/schedule stuff in the same time scale as the UI loop (i.e., MONOTONIC),
|
|
without having to resort to a syscall.
|
|
It should never be significantly stale, assuming the UI is in use (e.g., there are input events),
|
|
unless you're blocking the UI for a significant amount of time in a single UI frame.
|
|
|
|
That is to say, its granularity is an UI frame.
|
|
|
|
Prefer the appropriate time function for your needs if you require perfect accuracy or better granularity
|
|
(e.g., when you're actually working on the event loop *itself* (UIManager, Input, GestureDetector),
|
|
or if you're dealing with intra-frame timers).
|
|
|
|
This is *NOT* wall clock time (REALTIME).
|
|
]]
|
|
function UIManager:getTime()
|
|
return self._now
|
|
end
|
|
|
|
--[[--
|
|
Returns a time (fts) corresponding to the last UI tick plus the time in standby.
|
|
]]
|
|
function UIManager:getElapsedTimeSinceBoot()
|
|
return self:getTime() + Device.total_standby_time + Device.total_suspend_time
|
|
end
|
|
|
|
-- precedence of refresh modes:
|
|
local refresh_modes = { a2 = 1, fast = 2, ui = 3, partial = 4, ["[ui]"] = 5, ["[partial]"] = 6, flashui = 7, flashpartial = 8, full = 9 }
|
|
-- NOTE: We might want to introduce a "force_a2" that points to fast, but has the highest priority,
|
|
-- for the few cases where we might *really* want to enforce fast (for stuff like panning or skimming?).
|
|
-- refresh methods in framebuffer implementation
|
|
local refresh_methods = {
|
|
a2 = Screen.refreshA2,
|
|
fast = Screen.refreshFast,
|
|
ui = Screen.refreshUI,
|
|
partial = Screen.refreshPartial,
|
|
["[ui]"] = Screen.refreshNoMergeUI,
|
|
["[partial]"] = Screen.refreshNoMergePartial,
|
|
flashui = Screen.refreshFlashUI,
|
|
flashpartial = Screen.refreshFlashPartial,
|
|
full = Screen.refreshFull,
|
|
}
|
|
|
|
--[[
|
|
Compares refresh mode.
|
|
|
|
Will return the mode that takes precedence.
|
|
]]
|
|
local function update_mode(mode1, mode2)
|
|
if refresh_modes[mode1] > refresh_modes[mode2] then
|
|
logger.dbg("update_mode: Update refresh mode", mode2, "to", mode1)
|
|
return mode1
|
|
else
|
|
return mode2
|
|
end
|
|
end
|
|
|
|
--[[
|
|
Compares dither hints.
|
|
|
|
Dither always wins.
|
|
]]
|
|
local function update_dither(dither1, dither2)
|
|
if dither1 and not dither2 then
|
|
logger.dbg("update_dither: Update dither hint", dither2, "to", dither1)
|
|
return dither1
|
|
else
|
|
return dither2
|
|
end
|
|
end
|
|
|
|
--[[--
|
|
Enqueues a refresh.
|
|
|
|
Widgets call this in their `paintTo()` method in order to notify
|
|
UIManager that a certain part of the screen is to be refreshed.
|
|
|
|
@string mode
|
|
refresh mode (`"full"`, `"flashpartial"`, `"flashui"`, `"[partial]"`, `"[ui]"`, `"partial"`, `"ui"`, `"fast"`, `"a2"`)
|
|
@param region
|
|
A rectangle @{ui.geometry.Geom|Geom} object that specifies the region to be updated.
|
|
Optional, update will affect whole screen if not specified.
|
|
Note that this should be the exception.
|
|
@bool dither
|
|
A hint to request hardware dithering (if supported).
|
|
Optional, no dithering requested if not specified or not supported.
|
|
|
|
@local Not to be used outside of UIManager!
|
|
]]
|
|
function UIManager:_refresh(mode, region, dither)
|
|
if not mode then
|
|
-- If we're trying to float a dither hint up from a lower widget after a close, mode might be nil...
|
|
-- So use the lowest priority refresh mode (short of fast, because that'd do half-toning).
|
|
if dither then
|
|
mode = "ui"
|
|
else
|
|
-- Otherwise, this is most likely from a `show` or `close` that wasn't passed specific refresh details,
|
|
-- (which is the vast majority of them), in which case we drop it to avoid enqueuing a useless full-screen refresh.
|
|
return
|
|
end
|
|
end
|
|
-- Downgrade all refreshes to "fast" when ReaderPaging or ReaderScrolling have set this flag
|
|
if self.currently_scrolling then
|
|
mode = "fast"
|
|
end
|
|
if not region and mode == "full" then
|
|
self.refresh_count = 0 -- reset counter on explicit full refresh
|
|
end
|
|
-- Handle downgrading flashing modes to non-flashing modes, according to user settings.
|
|
-- NOTE: Do it before "full" promotion and collision checks/update_mode.
|
|
if G_reader_settings:isTrue("avoid_flashing_ui") then
|
|
if mode == "flashui" then
|
|
mode = "ui"
|
|
logger.dbg("_refresh: downgraded flashui refresh to", mode)
|
|
elseif mode == "flashpartial" then
|
|
mode = "partial"
|
|
logger.dbg("_refresh: downgraded flashpartial refresh to", mode)
|
|
elseif mode == "partial" and region then
|
|
mode = "ui"
|
|
logger.dbg("_refresh: downgraded regional partial refresh to", mode)
|
|
end
|
|
end
|
|
-- special case: "partial" refreshes
|
|
-- will get promoted every self.FULL_REFRESH_COUNT refreshes
|
|
-- since _refresh can be called mutiple times via setDirty called in
|
|
-- different widgets before a real screen repaint, we should make sure
|
|
-- refresh_count is incremented by only once at most for each repaint
|
|
-- NOTE: Ideally, we'd only check for "partial"" w/ no region set (that neatly narrows it down to just the reader).
|
|
-- In practice, we also want to promote refreshes in a few other places, except purely text-poor UI elements.
|
|
-- (Putting "ui" in that list is problematic with a number of UI elements, most notably, ReaderHighlight,
|
|
-- because it is implemented as "ui" over the full viewport, since we can't devise a proper bounding box).
|
|
-- So we settle for only "partial", but treating full-screen ones slightly differently.
|
|
if mode == "partial" and not self.refresh_counted then
|
|
self.refresh_count = (self.refresh_count + 1) % self.FULL_REFRESH_COUNT
|
|
if self.refresh_count == self.FULL_REFRESH_COUNT - 1 then
|
|
-- NOTE: Promote to "full" if no region (reader), to "flashui" otherwise (UI)
|
|
if region then
|
|
mode = "flashui"
|
|
else
|
|
mode = "full"
|
|
end
|
|
logger.dbg("_refresh: promote refresh to", mode)
|
|
end
|
|
self.refresh_counted = true
|
|
end
|
|
|
|
-- if no region is specified, use the screen's dimensions
|
|
region = region or Geom:new{w=Screen:getWidth(), h=Screen:getHeight()}
|
|
|
|
-- if no dithering hint was specified, don't request dithering
|
|
dither = dither or false
|
|
|
|
-- NOTE: While, ideally, we shouldn't merge refreshes w/ different waveform modes,
|
|
-- this allows us to optimize away a number of quirks of our rendering stack
|
|
-- (e.g., multiple setDirty calls queued when showing/closing a widget because of update mechanisms),
|
|
-- as well as a few actually effective merges
|
|
-- (e.g., the disappearance of a selection HL with the following menu update).
|
|
for i, refresh in ipairs(self._refresh_stack) do
|
|
-- Check for collision with refreshes that are already enqueued
|
|
-- NOTE: intersect *means* intersect: we won't merge edge-to-edge regions (but the EPDC probably will).
|
|
if region:intersectWith(refresh.region) then
|
|
-- combine both refreshes' regions
|
|
local combined = region:combine(refresh.region)
|
|
-- update the mode, if needed
|
|
mode = update_mode(mode, refresh.mode)
|
|
-- dithering hints are viral, one is enough to infect the whole queue
|
|
dither = update_dither(dither, refresh.dither)
|
|
-- remove colliding refresh
|
|
table.remove(self._refresh_stack, i)
|
|
-- and try again with combined data
|
|
return self:_refresh(mode, combined, dither)
|
|
end
|
|
end
|
|
|
|
-- if we've stopped hitting collisions, enqueue the refresh
|
|
logger.dbg("_refresh: Enqueued", mode, "update for region", region.x, region.y, region.w, region.h, "dithering:", dither)
|
|
table.insert(self._refresh_stack, {mode = mode, region = region, dither = dither})
|
|
end
|
|
|
|
--[[--
|
|
Repaints dirty widgets.
|
|
|
|
This will also drain the refresh queue, effectively refreshing the screen region(s) matching those freshly repainted widgets.
|
|
|
|
There may be refreshes enqueued without any widgets needing to be repainted (c.f., `setDirty`'s behavior when passed a `nil` widget),
|
|
in which case, nothing is repainted, but the refreshes are still drained and executed.
|
|
|
|
@local Not to be used outside of UIManager!
|
|
--]]
|
|
function UIManager:_repaint()
|
|
-- flag in which we will record if we did any repaints at all
|
|
-- will trigger a refresh if set.
|
|
local dirty = false
|
|
-- remember if any of our repaints were dithered
|
|
local dithered = false
|
|
|
|
-- We don't need to call paintTo() on widgets that are under
|
|
-- a widget that covers the full screen
|
|
local start_idx = 1
|
|
for i = #self._window_stack, 1, -1 do
|
|
if self._window_stack[i].widget.covers_fullscreen then
|
|
start_idx = i
|
|
if i > 1 then
|
|
logger.dbg("not painting", i-1, "covered widget(s)")
|
|
end
|
|
break
|
|
end
|
|
end
|
|
|
|
-- Show IDs of covered widgets when debugging
|
|
--[[
|
|
if start_idx > 1 then
|
|
for i = 1, start_idx-1 do
|
|
local widget = self._window_stack[i].widget
|
|
logger.dbg("NOT painting widget:", widget.name or widget.id or tostring(widget))
|
|
end
|
|
end
|
|
--]]
|
|
|
|
for i = start_idx, #self._window_stack do
|
|
local window = self._window_stack[i]
|
|
local widget = window.widget
|
|
-- paint if current widget or any widget underneath is dirty
|
|
if dirty or self._dirty[widget] then
|
|
-- pass hint to widget that we got when setting widget dirty
|
|
-- the widget can use this to decide which parts should be refreshed
|
|
logger.dbg("painting widget:", widget.name or widget.id or tostring(widget))
|
|
Screen:beforePaint()
|
|
-- NOTE: Nothing actually seems to use the final argument?
|
|
-- Could be used by widgets to know whether they're being repainted because they're actually dirty (it's true),
|
|
-- or because something below them was (it's nil).
|
|
widget:paintTo(Screen.bb, window.x, window.y, self._dirty[widget])
|
|
|
|
-- and remove from list after painting
|
|
self._dirty[widget] = nil
|
|
|
|
-- trigger a repaint for every widget above us, too
|
|
dirty = true
|
|
|
|
-- if any of 'em were dithered, we'll want to dither the final refresh
|
|
if widget.dithered then
|
|
logger.dbg("_repaint: it was dithered, infecting the refresh queue")
|
|
dithered = true
|
|
end
|
|
end
|
|
end
|
|
|
|
-- execute pending refresh functions
|
|
for _, refreshfunc in ipairs(self._refresh_func_stack) do
|
|
local refreshtype, region, dither = refreshfunc()
|
|
-- honor dithering hints from *anywhere* in the dirty stack
|
|
dither = update_dither(dither, dithered)
|
|
if refreshtype then
|
|
self:_refresh(refreshtype, region, dither)
|
|
end
|
|
end
|
|
self._refresh_func_stack = {}
|
|
|
|
-- we should have at least one refresh if we did repaint. If we don't, we
|
|
-- add one now and log a warning if we are debugging
|
|
if dirty and not self._refresh_stack[1] then
|
|
logger.dbg("no refresh got enqueued. Will do a partial full screen refresh, which might be inefficient")
|
|
self:_refresh("partial")
|
|
end
|
|
|
|
-- execute refreshes:
|
|
for _, refresh in ipairs(self._refresh_stack) do
|
|
-- Honor dithering hints from *anywhere* in the dirty stack
|
|
refresh.dither = update_dither(refresh.dither, dithered)
|
|
-- If HW dithering is disabled, unconditionally drop the dither flag
|
|
if not Screen.hw_dithering then
|
|
refresh.dither = nil
|
|
end
|
|
dbg:v("triggering refresh", refresh)
|
|
|
|
--[[
|
|
-- Remember the refresh region
|
|
self._last_refresh_region = refresh.region:copy()
|
|
--]]
|
|
refresh_methods[refresh.mode](Screen,
|
|
refresh.region.x, refresh.region.y,
|
|
refresh.region.w, refresh.region.h,
|
|
refresh.dither)
|
|
end
|
|
|
|
-- Don't trigger afterPaint if we did not, in fact, paint anything
|
|
if dirty then
|
|
Screen:afterPaint()
|
|
end
|
|
|
|
self._refresh_stack = {}
|
|
self.refresh_counted = false
|
|
end
|
|
|
|
--- Explicitly drain the paint & refresh queues *now*, instead of waiting for the next UI tick.
|
|
function UIManager:forceRePaint()
|
|
self:_repaint()
|
|
end
|
|
|
|
--[[--
|
|
Ask the EPDC to *block* until our previous refresh ioctl has completed.
|
|
|
|
This interacts sanely with the existing low-level handling of this in `framebuffer_mxcfb`
|
|
(i.e., it doesn't even try to wait for a marker that fb has already waited for, and vice-versa).
|
|
|
|
Will return immediately if it has already completed.
|
|
|
|
If the device isn't a Linux + MXCFB device, this is a NOP.
|
|
]]
|
|
function UIManager:waitForVSync()
|
|
Screen:refreshWaitForLast()
|
|
end
|
|
|
|
--[[--
|
|
Yield to the EPDC.
|
|
|
|
This is a dumb workaround for potential races with the EPDC when we request a refresh on a specific region,
|
|
and then proceed to *write* to the framebuffer, in the same region, very, very, very soon after that.
|
|
|
|
This basically just puts ourselves to sleep for a very short amount of time, to let the kernel do its thing in peace.
|
|
|
|
@int sleep_us Amount of time to sleep for (in µs). (Optional, defaults to 1ms).
|
|
]]
|
|
function UIManager:yieldToEPDC(sleep_us)
|
|
if Device:hasEinkScreen() then
|
|
-- NOTE: Early empiric evidence suggests that going as low as 1ms is enough to do the trick.
|
|
-- Consider jumping to the jiffy resolution (100Hz/10ms) if it turns out it isn't ;).
|
|
ffiUtil.usleep(sleep_us or 1000)
|
|
end
|
|
end
|
|
|
|
--[[--
|
|
Used to repaint a specific sub-widget that isn't on the `_window_stack` itself.
|
|
|
|
Useful to avoid repainting a complex widget when we just want to invert an icon, for instance.
|
|
No safety checks on x & y *by design*. I want this to blow up if used wrong.
|
|
|
|
This is an explicit repaint *now*: it bypasses and ignores the paint queue (unlike `setDirty`).
|
|
|
|
@param widget a @{ui.widget.widget|widget} object
|
|
@int x left origin of widget (in the Screen buffer, e.g., `widget.dimen.x`)
|
|
@int y top origin of widget (in the Screen buffer, e.g., `widget.dimen.y`)
|
|
]]
|
|
function UIManager:widgetRepaint(widget, x, y)
|
|
if not widget then return end
|
|
|
|
logger.dbg("Explicit widgetRepaint:", widget.name or widget.id or tostring(widget), "@ (", x, ",", y, ")")
|
|
if widget.show_parent and widget.show_parent.cropping_widget then
|
|
-- The main widget parent of this subwidget has a cropping container: see if
|
|
-- this widget is a child of this cropping container
|
|
local cropping_widget = widget.show_parent.cropping_widget
|
|
if util.arrayReferences(cropping_widget, widget) then
|
|
-- Delegate the painting of this subwidget to its cropping widget container
|
|
cropping_widget:paintTo(Screen.bb, cropping_widget.dimen.x, cropping_widget.dimen.y)
|
|
return
|
|
end
|
|
end
|
|
widget:paintTo(Screen.bb, x, y)
|
|
end
|
|
|
|
--[[--
|
|
Same idea as `widgetRepaint`, but does a simple `bb:invertRect` on the Screen buffer, without actually going through the widget's `paintTo` method.
|
|
|
|
@param widget a @{ui.widget.widget|widget} object
|
|
@int x left origin of the rectangle to invert (in the Screen buffer, e.g., `widget.dimen.x`)
|
|
@int y top origin of the rectangle (in the Screen buffer, e.g., `widget.dimen.y`)
|
|
@int w width of the rectangle (optional, will use `widget.dimen.w` like `paintTo` would if omitted)
|
|
@int h height of the rectangle (optional, will use `widget.dimen.h` like `paintTo` would if omitted)
|
|
@see widgetRepaint
|
|
--]]
|
|
function UIManager:widgetInvert(widget, x, y, w, h)
|
|
if not widget then return end
|
|
|
|
logger.dbg("Explicit widgetInvert:", widget.name or widget.id or tostring(widget), "@ (", x, ",", y, ")")
|
|
if widget.show_parent and widget.show_parent.cropping_widget then
|
|
-- The main widget parent of this subwidget has a cropping container: see if
|
|
-- this widget is a child of this cropping container
|
|
local cropping_widget = widget.show_parent.cropping_widget
|
|
if util.arrayReferences(cropping_widget, widget) then
|
|
-- Invert only what intersects with the cropping container
|
|
local widget_region = Geom:new{x=x, y=y, w=w or widget.dimen.w, h=h or widget.dimen.h}
|
|
local crop_region = cropping_widget:getCropRegion()
|
|
local invert_region = crop_region:intersect(widget_region)
|
|
Screen.bb:invertRect(invert_region.x, invert_region.y, invert_region.w, invert_region.h)
|
|
return
|
|
end
|
|
end
|
|
Screen.bb:invertRect(x, y, w or widget.dimen.w, h or widget.dimen.h)
|
|
end
|
|
|
|
function UIManager:setInputTimeout(timeout)
|
|
self.INPUT_TIMEOUT = timeout or (200*1000)
|
|
end
|
|
|
|
function UIManager:resetInputTimeout()
|
|
self.INPUT_TIMEOUT = nil
|
|
end
|
|
|
|
-- NOTE: The Event hook mechanism used to dispatch for *every* event, and would actually pass the event along.
|
|
-- We've simplified that to once per input frame, and without passing anything (as we, in fact, have never made use of it).
|
|
function UIManager:handleInputEvent(input_event)
|
|
local handler = self.event_handlers[input_event]
|
|
if handler then
|
|
handler(input_event)
|
|
else
|
|
self.event_handlers.__default__(input_event)
|
|
end
|
|
end
|
|
|
|
-- Process all pending events on all registered ZMQs.
|
|
function UIManager:processZMQs()
|
|
if self._zeromqs[1] then
|
|
self.event_hook:execute("InputEvent")
|
|
end
|
|
for _, zeromq in ipairs(self._zeromqs) do
|
|
for input_event in zeromq.waitEvent, zeromq do
|
|
self:handleInputEvent(input_event)
|
|
end
|
|
end
|
|
end
|
|
|
|
function UIManager:handleInput()
|
|
local wait_until, now
|
|
-- run this in a loop, so that paints can trigger events
|
|
-- that will be honored when calculating the time to wait
|
|
-- for input events:
|
|
repeat
|
|
wait_until, now = self:_checkTasks()
|
|
--[[
|
|
dbg("---------------------------------------------------")
|
|
dbg("wait_until", wait_until)
|
|
dbg("now ", now)
|
|
dbg("#exec stack ", #self._task_queue)
|
|
dbg("#window stack", #self._window_stack)
|
|
dbg("#dirty stack ", util.tableSize(self._dirty))
|
|
dbg("dirty?", self._task_queue_dirty)
|
|
dbg("---------------------------------------------------")
|
|
--]]
|
|
|
|
-- stop when we have no window to show
|
|
if not self._window_stack[1] then
|
|
logger.info("no dialog left to show")
|
|
if self:_gated_quit() ~= false then
|
|
return nil
|
|
end
|
|
end
|
|
|
|
self:_repaint()
|
|
until not self._task_queue_dirty
|
|
|
|
-- NOTE: Compute deadline *before* processing ZMQs, in order to be able to catch tasks scheduled *during*
|
|
-- the final ZMQ callback.
|
|
-- This ensures that we get to honor a single ZMQ_TIMEOUT *after* the final ZMQ callback,
|
|
-- which gives us a chance for another iteration, meaning going through _checkTasks to catch said scheduled tasks.
|
|
-- Figure out how long to wait.
|
|
-- Ultimately, that'll be the earliest of INPUT_TIMEOUT, ZMQ_TIMEOUT or the next earliest scheduled task.
|
|
local deadline
|
|
-- Default to INPUT_TIMEOUT (which may be nil, i.e. block until an event happens).
|
|
local wait_us = self.INPUT_TIMEOUT
|
|
|
|
-- If we have any ZMQs registered, ZMQ_TIMEOUT is another upper bound.
|
|
if self._zeromqs[1] then
|
|
wait_us = math.min(wait_us or math.huge, self.ZMQ_TIMEOUT)
|
|
end
|
|
|
|
-- We pass that on as an absolute deadline, not a relative wait time.
|
|
if wait_us then
|
|
deadline = now + time.us(wait_us)
|
|
end
|
|
|
|
-- If there's a scheduled task pending, that puts an upper bound on how long to wait.
|
|
if wait_until and (not deadline or wait_until < deadline) then
|
|
-- ^ We don't have a TIMEOUT induced deadline, making the choice easy.
|
|
-- ^ We have a task scheduled for *before* our TIMEOUT induced deadline.
|
|
deadline = wait_until
|
|
end
|
|
|
|
-- Run ZMQs if any
|
|
self:processZMQs()
|
|
|
|
-- If allowed, entering standby (from which we can wake by input) must trigger in response to event
|
|
-- this function emits (plugin), or within waitEvent() right after (hardware).
|
|
-- Anywhere else breaks preventStandby/allowStandby invariants used by background jobs while UI is left running.
|
|
self:_standbyTransition()
|
|
if self._pm_consume_input_early then
|
|
-- If the PM state transition requires an early return from input polling, honor that.
|
|
-- c.f., UIManager:setPMInputTimeout (and AutoSuspend:AllowStandbyHandler).
|
|
deadline = now
|
|
self._pm_consume_input_early = false
|
|
end
|
|
|
|
-- wait for next batch of events
|
|
local input_events = Input:waitEvent(now, deadline)
|
|
|
|
-- delegate each input event to handler
|
|
if input_events then
|
|
-- Dispatch event hooks first, as some plugins (*cough* AutoSuspend *cough*)
|
|
-- rely on it to react properly to the actual event...
|
|
if input_events[1] then
|
|
self.event_hook:execute("InputEvent")
|
|
end
|
|
-- Handle the full batch of events
|
|
for __, ev in ipairs(input_events) do
|
|
self:handleInputEvent(ev)
|
|
end
|
|
end
|
|
|
|
if self.looper then
|
|
logger.info("handle input in turbo I/O looper")
|
|
self.looper:add_callback(function()
|
|
--- @fixme Force close looper when there is unhandled error,
|
|
-- otherwise the looper will hang. Any better solution?
|
|
xpcall(function() self:handleInput() end, function(err)
|
|
io.stderr:write(err .. "\n")
|
|
io.stderr:write(debug.traceback() .. "\n")
|
|
self.looper:close()
|
|
os.exit(1, true)
|
|
end)
|
|
end)
|
|
end
|
|
end
|
|
|
|
function UIManager:onRotation()
|
|
self:setDirty("all", "full")
|
|
self:forceRePaint()
|
|
end
|
|
|
|
function UIManager:initLooper()
|
|
if G_defaults:readSetting("DUSE_TURBO_LIB") and not self.looper then
|
|
TURBO_SSL = true -- luacheck: ignore
|
|
__TURBO_USE_LUASOCKET__ = true -- luacheck: ignore
|
|
local turbo = require("turbo")
|
|
self.looper = turbo.ioloop.instance()
|
|
end
|
|
end
|
|
|
|
--[[--
|
|
This is the main loop of the UI controller.
|
|
|
|
It is intended to manage input events and delegate them to dialogs.
|
|
--]]
|
|
function UIManager:run()
|
|
-- Tell PowerD that we're ready
|
|
Device:getPowerDevice():readyUI()
|
|
|
|
self:initLooper()
|
|
-- currently there is no Turbo support for Windows
|
|
-- use our own main loop
|
|
if not self.looper then
|
|
repeat
|
|
self:handleInput()
|
|
until self._exit_code
|
|
else
|
|
self.looper:add_callback(function() self:handleInput() end)
|
|
self.looper:start()
|
|
end
|
|
|
|
return self._exit_code
|
|
end
|
|
|
|
--[[--
|
|
Executes all the operations of a suspension (i.e., sleep) request.
|
|
|
|
This function usually puts the device into suspension.
|
|
]]
|
|
function UIManager:suspend()
|
|
-- Should always exist, as defined in `generic/device` or overwritten with `setEventHandlers`
|
|
if self.event_handlers.Suspend then
|
|
-- Give the other event handlers a chance to be executed.
|
|
-- `Suspend` and `Resume` events will be sent by the handler
|
|
UIManager:nextTick(self.event_handlers.Suspend)
|
|
end
|
|
end
|
|
|
|
function UIManager:askForReboot(message_text)
|
|
-- Should always exist, as defined in `generic/device` or overwritten with `setEventHandlers`
|
|
if self.event_handlers.Reboot then
|
|
-- Give the other event handlers a chance to be executed.
|
|
-- 'Reboot' event will be sent by the handler
|
|
UIManager:nextTick(self.event_handlers.Reboot, message_text)
|
|
end
|
|
end
|
|
|
|
function UIManager:askForPowerOff(message_text)
|
|
-- Should always exist, as defined in `generic/device` or overwritten with `setEventHandlers`
|
|
if self.event_handlers.PowerOff then
|
|
-- Give the other event handlers a chance to be executed.
|
|
-- 'PowerOff' event will be sent by the handler
|
|
UIManager:nextTick(self.event_handlers.PowerOff, message_text)
|
|
end
|
|
end
|
|
|
|
function UIManager:askForRestart(message_text)
|
|
-- Should always exist, as defined in `generic/device` or overwritten with `setEventHandlers`
|
|
if self.event_handlers.PowerOff then
|
|
-- Give the other event handlers a chance to be executed.
|
|
-- 'Restart' event will be sent by the handler
|
|
UIManager:nextTick(self.event_handlers.Restart, message_text)
|
|
end
|
|
end
|
|
|
|
--[[--
|
|
Release standby lock.
|
|
|
|
Called once we're done with whatever we were doing in the background.
|
|
Standby is re-enabled only after all issued prevents are paired with allowStandby for each one.
|
|
]]
|
|
function UIManager:allowStandby()
|
|
assert(self._prevent_standby_count > 0, "allowing standby that isn't prevented; you have an allow/prevent mismatch somewhere")
|
|
self._prevent_standby_count = self._prevent_standby_count - 1
|
|
logger.dbg("UIManager:allowStandby, counter decreased to", self._prevent_standby_count)
|
|
end
|
|
|
|
--[[--
|
|
Prevent standby.
|
|
|
|
i.e., something is happening in background, yet UI may tick.
|
|
]]
|
|
function UIManager:preventStandby()
|
|
self._prevent_standby_count = self._prevent_standby_count + 1
|
|
logger.dbg("UIManager:preventStandby, counter increased to", self._prevent_standby_count)
|
|
end
|
|
|
|
-- The allow/prevent calls above can interminently allow standbys, but we're not interested until
|
|
-- the state change crosses UI tick boundary, which is what self._prev_prevent_standby_count is tracking.
|
|
function UIManager:_standbyTransition()
|
|
if self._prevent_standby_count == 0 and self._prev_prevent_standby_count > 0 then
|
|
-- edge prevent->allow
|
|
logger.dbg("UIManager:_standbyTransition -> AllowStandby")
|
|
Device:setAutoStandby(true)
|
|
self:broadcastEvent(Event:new("AllowStandby"))
|
|
elseif self._prevent_standby_count > 0 and self._prev_prevent_standby_count == 0 then
|
|
-- edge allow->prevent
|
|
logger.dbg("UIManager:_standbyTransition -> PreventStandby")
|
|
Device:setAutoStandby(false)
|
|
self:broadcastEvent(Event:new("PreventStandby"))
|
|
end
|
|
self._prev_prevent_standby_count = self._prevent_standby_count
|
|
end
|
|
|
|
-- Used by a PM transition event handler to request an early return from input polling.
|
|
-- NOTE: We can't re-use setInputTimeout to avoid interactions with ZMQ...
|
|
function UIManager:consumeInputEarlyAfterPM(toggle)
|
|
self._pm_consume_input_early = toggle
|
|
end
|
|
|
|
--- Broadcasts a `FlushSettings` Event to *all* widgets.
|
|
function UIManager:flushSettings()
|
|
self:broadcastEvent(Event:new("FlushSettings"))
|
|
end
|
|
|
|
--- Sanely restart KOReader (on supported platforms).
|
|
function UIManager:restartKOReader()
|
|
-- This is just a magic number to indicate the restart request for shell scripts.
|
|
self:quit(85)
|
|
end
|
|
|
|
--- Sanely abort KOReader (e.g., exit sanely, but with a non-zero return code).
|
|
function UIManager:abort()
|
|
self:quit(1)
|
|
end
|
|
|
|
UIManager:init()
|
|
return UIManager
|