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koreader/frontend/device/gesturedetector.lua
Hans-Werner Hilse 3066c86e38 Refactoring hardware abstraction 
This is a major overhaul of the hardware abstraction layer.
A few notes:

General platform distinction happens in
  frontend/device.lua
which will delegate everything else to
  frontend/device/<platform_name>/device.lua
which should extend
  frontend/device/generic/device.lua

Screen handling is implemented in
  frontend/device/screen.lua
which includes the *functionality* to support device specifics.
Actually setting up the device specific functionality, however,
is done in the device specific setup code in the relevant
device.lua file.

The same goes for input handling.
2014-11-02 21:19:04 +01:00

676 lines
22 KiB
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local Geom = require("ui/geometry")
local TimeVal = require("ui/timeval")
local DEBUG = require("dbg")
--[[
Current detectable gestures:
* tap
* pan
* hold
* swipe
* pinch
* spread
* rotate
* hold_pan
* double_tap
* inward_pan
* outward_pan
* pan_release
* hold_release
* two_finger_tap
* two_finger_pan
* two_finger_swipe
* two_finger_pan_release
You change the state machine by feeding it touch events, i.e. calling
GestureDetector:feedEvent(tev).
a touch event should have following format:
tev = {
slot = 1,
id = 46,
x = 0,
y = 1,
timev = TimeVal:new{...},
}
Don't confuse tev with raw evs from kernel, tev is build according to ev.
GestureDetector:feedEvent(tev) will return a detection result when you
feed a touch release event to it.
--]]
local GestureDetector = {
-- must be initialized with the Input singleton class
input = nil,
-- all the time parameters are in us
DOUBLE_TAP_INTERVAL = 300 * 1000,
TWO_FINGER_TAP_DURATION = 300 * 1000,
HOLD_INTERVAL = 500 * 1000,
SWIPE_INTERVAL = 900 * 1000,
-- pinch/spread direction table
DIRECTION_TABLE = {
east = "horizontal",
west = "horizontal",
north = "vertical",
south = "vertical",
northeast = "diagonal",
northwest = "diagonal",
southeast = "diagonal",
southwest = "diagonal",
},
-- states are stored in separated slots
states = {},
track_ids = {},
tev_stacks = {},
-- latest feeded touch event in each slots
last_tevs = {},
first_tevs = {},
-- detecting status on each slots
detectings = {},
-- for single/double tap
last_taps = {},
}
function GestureDetector:new(o)
local o = o or {}
setmetatable(o, self)
self.__index = self
if o.init then o:init() end
return o
end
function GestureDetector:init()
-- distance parameters
self.DOUBLE_TAP_DISTANCE = 50 * self.screen:getDPI() / 167
self.TWO_FINGER_TAP_REGION = 20 * self.screen:getDPI() / 167
self.PAN_THRESHOLD = 50 * self.screen:getDPI() / 167
end
function GestureDetector:feedEvent(tevs)
repeat
local tev = table.remove(tevs)
if tev then
--DEBUG("tev fed|",tev.timev.sec,"|",tev.timev.usec,"|",tev.x,"|",tev.y,"|",tev.id,"| Evt",tev.slot)
local slot = tev.slot
if not self.states[slot] then
self:clearState(slot) -- initiate state
end
local ges = self.states[slot](self, tev)
if tev.id ~= -1 then
self.last_tevs[slot] = tev
end
-- return no more than one gesture
if ges then return ges end
end
until tev == nil
end
function GestureDetector:deepCopyEv(tev)
return {
x = tev.x,
y = tev.y,
id = tev.id,
slot = tev.slot,
timev = TimeVal:new{
sec = tev.timev.sec,
usec = tev.timev.usec,
}
}
end
--[[
tap2 is the later tap
--]]
function GestureDetector:isDoubleTap(tap1, tap2)
local tv_diff = tap2.timev - tap1.timev
return (
math.abs(tap1.x - tap2.x) < self.DOUBLE_TAP_DISTANCE and
math.abs(tap1.y - tap2.y) < self.DOUBLE_TAP_DISTANCE and
(tv_diff.sec == 0 and (tv_diff.usec) < self.DOUBLE_TAP_INTERVAL)
)
end
function GestureDetector:isTwoFingerTap()
if self.last_tevs[0] == nil or self.last_tevs[1] == nil then
return false
end
local x_diff0 = math.abs(self.last_tevs[0].x - self.first_tevs[0].x)
local x_diff1 = math.abs(self.last_tevs[1].x - self.first_tevs[1].x)
local y_diff0 = math.abs(self.last_tevs[0].y - self.first_tevs[0].y)
local y_diff1 = math.abs(self.last_tevs[1].y - self.first_tevs[1].y)
local tv_diff0 = self.last_tevs[0].timev - self.first_tevs[0].timev
local tv_diff1 = self.last_tevs[1].timev - self.first_tevs[1].timev
return (
x_diff0 < self.TWO_FINGER_TAP_REGION and
x_diff1 < self.TWO_FINGER_TAP_REGION and
y_diff0 < self.TWO_FINGER_TAP_REGION and
y_diff1 < self.TWO_FINGER_TAP_REGION and
tv_diff0.sec == 0 and tv_diff0.usec < self.TWO_FINGER_TAP_DURATION and
tv_diff1.sec == 0 and tv_diff1.usec < self.TWO_FINGER_TAP_DURATION
)
end
--[[
compare last_pan with first_tev in this slot
return pan direction and distance
--]]
function GestureDetector:getPath(slot)
local x_diff = self.last_tevs[slot].x - self.first_tevs[slot].x
local y_diff = self.last_tevs[slot].y - self.first_tevs[slot].y
local direction = nil
local distance = math.sqrt(x_diff*x_diff + y_diff*y_diff)
if x_diff == 0 and y_diff == 0 then
else
local v_direction = y_diff < 0 and "north" or "south"
local h_direction = x_diff < 0 and "west" or "east"
if math.abs(y_diff) > 0.577*math.abs(x_diff)
and math.abs(y_diff) < 1.732*math.abs(x_diff) then
direction = v_direction..h_direction
elseif (math.abs(x_diff) > math.abs(y_diff)) then
direction = h_direction
else
direction = v_direction
end
end
return direction, distance
end
function GestureDetector:isSwipe(slot)
if not self.first_tevs[slot] or not self.last_tevs[slot] then return end
local tv_diff = self.first_tevs[slot].timev - self.last_tevs[slot].timev
if (tv_diff.sec == 0) and (tv_diff.usec < self.SWIPE_INTERVAL) then
local x_diff = self.last_tevs[slot].x - self.first_tevs[slot].x
local y_diff = self.last_tevs[slot].y - self.first_tevs[slot].y
if x_diff ~= 0 or y_diff ~= 0 then
return true
end
end
end
function GestureDetector:getRotate(orig_point, start_point, end_point)
local a = orig_point:distance(start_point)
local b = orig_point:distance(end_point)
local c = start_point:distance(end_point)
return math.acos((a*a + b*b - c*c)/(2*a*b))*180/math.pi
end
--[[
Warning! this method won't update self.state, you need to do it
in each state method!
--]]
function GestureDetector:switchState(state_new, tev, param)
--@TODO do we need to check whether state is valid? (houqp)
return self[state_new](self, tev, param)
end
function GestureDetector:clearState(slot)
self.states[slot] = self.initialState
self.detectings[slot] = false
self.first_tevs[slot] = nil
self.last_tevs[slot] = nil
end
function GestureDetector:clearStates()
self:clearState(0)
self:clearState(1)
end
function GestureDetector:initialState(tev)
local slot = tev.slot
if tev.id then
-- an event ends
if tev.id == -1 then
self.detectings[slot] = false
else
self.track_ids[slot] = tev.id
if tev.x and tev.y then
-- user starts a new touch motion
if not self.detectings[slot] then
self.detectings[slot] = true
self.first_tevs[slot] = self:deepCopyEv(tev)
-- default to tap state
return self:switchState("tapState", tev)
end
end
end
end
end
--[[
this method handles both single and double tap
--]]
function GestureDetector:tapState(tev)
DEBUG("in tap state...")
local slot = tev.slot
if tev.id == -1 then
-- end of tap event
if self.detectings[0] and self.detectings[1] then
if self:isTwoFingerTap() then
local pos0 = Geom:new{
x = self.last_tevs[0].x,
y = self.last_tevs[0].y,
w = 0, h = 0,
}
local pos1 = Geom:new{
x = self.last_tevs[1].x,
y = self.last_tevs[1].y,
w = 0, h = 0,
}
local tap_span = pos0:distance(pos1)
DEBUG("two-finger tap detected with span", tap_span)
self:clearStates()
return {
ges = "two_finger_tap",
pos = pos0:midpoint(pos1),
span = tap_span,
time = tev.timev,
}
else
self:clearState(slot)
end
elseif self.last_tevs[slot] ~= nil then
return self:handleDoubleTap(tev)
else
-- last tev in this slot is cleared by last two finger tap
self:clearState(slot)
return {
ges = "tap",
pos = Geom:new{
x = tev.x,
y = tev.y,
w = 0, h = 0,
},
time = tev.timev,
}
end
else
return self:handleNonTap(tev)
end
end
function GestureDetector:handleDoubleTap(tev)
local slot = tev.slot
local ges_ev = {
-- default to single tap
ges = "tap",
pos = Geom:new{
x = self.last_tevs[slot].x,
y = self.last_tevs[slot].y,
w = 0, h = 0,
},
time = tev.timev,
}
-- cur_tap is used for double tap detection
local cur_tap = {
x = tev.x,
y = tev.y,
timev = tev.timev,
}
if self.last_taps[slot] ~= nil and
self:isDoubleTap(self.last_taps[slot], cur_tap) then
-- it is a double tap
self:clearState(slot)
ges_ev.ges = "double_tap"
self.last_taps[slot] = nil
DEBUG("double tap detected in slot", slot)
return ges_ev
end
-- set current tap to last tap
self.last_taps[slot] = cur_tap
DEBUG("set up tap timer")
-- deadline should be calculated by adding current tap time and the interval
local deadline = cur_tap.timev + TimeVal:new{
sec = 0,
usec = not self.input.disable_double_tap and self.DOUBLE_TAP_INTERVAL or 0,
}
self.input:setTimeout(function()
DEBUG("in tap timer", self.last_taps[slot] ~= nil)
-- double tap will set last_tap to nil so if it is not, then
-- user must only tapped once
if self.last_taps[slot] ~= nil then
self.last_taps[slot] = nil
-- we are using closure here
DEBUG("single tap detected in slot", slot)
return ges_ev
end
end, deadline)
-- we are already at the end of touch event
-- so reset the state
self:clearState(slot)
end
function GestureDetector:handleNonTap(tev)
local slot = tev.slot
if self.states[slot] ~= self.tapState then
-- switched from other state, probably from initialState
-- we return nil in this case
self.states[slot] = self.tapState
DEBUG("set up hold timer")
local deadline = tev.timev + TimeVal:new{
sec = 0, usec = self.HOLD_INTERVAL
}
self.input:setTimeout(function()
if self.states[slot] == self.tapState then
-- timer set in tapState, so we switch to hold
DEBUG("hold gesture detected in slot", slot)
return self:switchState("holdState", tev, true)
end
end, deadline)
--DEBUG("handle non-tap", tev)
return {
ges = "touch",
pos = Geom:new{
x = tev.x,
y = tev.y,
w = 0, h = 0,
},
time = tev.timev,
}
else
-- it is not end of touch event, see if we need to switch to
-- other states
if (tev.x and math.abs(tev.x - self.first_tevs[slot].x) >= self.PAN_THRESHOLD) or
(tev.y and math.abs(tev.y - self.first_tevs[slot].y) >= self.PAN_THRESHOLD) then
-- if user's finger moved long enough in X or
-- Y distance, we switch to pan state
return self:switchState("panState", tev)
end
end
end
function GestureDetector:panState(tev)
DEBUG("in pan state...")
local slot = tev.slot
if tev.id == -1 then
-- end of pan, signal swipe gesture if necessary
if self:isSwipe(slot) then
if self.detectings[0] and self.detectings[1] then
local ges_ev = self:handleTwoFingerPan(tev)
self:clearStates()
if ges_ev then
if ges_ev.ges == "two_finger_pan" then
ges_ev.ges = "two_finger_swipe"
elseif ges_ev.ges == "inward_pan" then
ges_ev.ges = "pinch"
elseif ges_ev.ges == "outward_pan" then
ges_ev.ges = "spread"
end
DEBUG(ges_ev.ges, ges_ev.direction, ges_ev.distance, "detected")
end
return ges_ev
else
return self:handleSwipe(tev)
end
else -- if end of pan is not swipe then it must be pan release.
return self:handlePanRelease(tev)
end
else
if self.states[slot] ~= self.panState then
self.states[slot] = self.panState
end
return self:handlePan(tev)
end
end
function GestureDetector:handleSwipe(tev)
local slot = tev.slot
local swipe_direction, swipe_distance = self:getPath(slot)
local start_pos = Geom:new{
x = self.first_tevs[slot].x,
y = self.first_tevs[slot].y,
w = 0, h = 0,
}
DEBUG("swipe", swipe_direction, swipe_distance, "detected in slot", slot)
self:clearState(slot)
return {
ges = "swipe",
-- use first pan tev coordination as swipe start point
pos = start_pos,
direction = swipe_direction,
distance = swipe_distance,
time = tev.timev,
}
end
function GestureDetector:handlePan(tev)
local slot = tev.slot
if self.detectings[0] and self.detectings[1] then
return self:handleTwoFingerPan(tev)
else
local pan_direction, pan_distance = self:getPath(slot)
local pan_ev = {
ges = "pan",
relative = {
-- default to pan 0
x = 0,
y = 0,
},
pos = nil,
direction = pan_direction,
distance = pan_distance,
time = tev.timev,
}
pan_ev.relative.x = tev.x - self.first_tevs[slot].x
pan_ev.relative.y = tev.y - self.first_tevs[slot].y
pan_ev.pos = Geom:new{
x = self.last_tevs[slot].x,
y = self.last_tevs[slot].y,
w = 0, h = 0,
}
--DEBUG(pan_ev.ges, pan_ev, "detected")
return pan_ev
end
end
function GestureDetector:handleTwoFingerPan(tev)
-- triggering slot
local tslot = tev.slot
-- reference slot
local rslot = tslot == 1 and 0 or 1
local tpan_dir, tpan_dis = self:getPath(tslot)
local tstart_pos = Geom:new{
x = self.first_tevs[tslot].x,
y = self.first_tevs[tslot].y,
w = 0, h = 0,
}
local tend_pos = Geom:new{
x = self.last_tevs[tslot].x,
y = self.last_tevs[tslot].y,
w = 0, h = 0,
}
local rstart_pos = Geom:new{
x = self.first_tevs[rslot].x,
y = self.first_tevs[rslot].y,
w = 0, h = 0,
}
if self.states[rslot] == self.panState then
local rpan_dir, rpan_dis = self:getPath(rslot)
local rend_pos = Geom:new{
x = self.last_tevs[rslot].x,
y = self.last_tevs[rslot].y,
w = 0, h = 0,
}
local start_distance = tstart_pos:distance(rstart_pos)
local end_distance = tend_pos:distance(rend_pos)
local ges_ev = {
ges = "two_finger_pan",
-- use midpoint of tstart and rstart as swipe start point
pos = tstart_pos:midpoint(rstart_pos),
distance = tpan_dis + rpan_dis,
direction = tpan_dir,
time = tev.timev,
}
if tpan_dir ~= rpan_dir then
if start_distance > end_distance then
ges_ev.ges = "inward_pan"
else
ges_ev.ges = "outward_pan"
end
ges_ev.direction = self.DIRECTION_TABLE[tpan_dir]
end
DEBUG(ges_ev.ges, ges_ev.direction, ges_ev.distance, "detected")
return ges_ev
elseif self.states[rslot] == self.holdState then
local angle = self:getRotate(rstart_pos, tstart_pos, tend_pos)
DEBUG("rotate", angle, "detected")
return {
ges = "rotate",
pos = rstart_pos,
angle = angle,
time = tev.timev,
}
end
end
function GestureDetector:handlePanRelease(tev)
local slot = tev.slot
local release_pos = Geom:new{
x = self.last_tevs[slot].x,
y = self.last_tevs[slot].y,
w = 0, h = 0,
}
local pan_ev = {
ges = "pan_release",
pos = release_pos,
time = tev.timev,
}
if self.detectings[0] and self.detectings[1] then
DEBUG("two finger pan release detected")
pan_ev.ges = "two_finger_pan_release"
self:clearStates()
else
DEBUG("pan release detected in slot", slot)
self:clearState(slot)
end
return pan_ev
end
function GestureDetector:holdState(tev, hold)
DEBUG("in hold state...")
local slot = tev.slot
-- when we switch to hold state, we pass additional param "hold"
if tev.id ~= -1 and hold and self.last_tevs[slot].x and self.last_tevs[slot].y then
self.states[slot] = self.holdState
return {
ges = "hold",
pos = Geom:new{
x = self.last_tevs[slot].x,
y = self.last_tevs[slot].y,
w = 0, h = 0,
},
time = tev.timev,
}
elseif tev.id == -1 and self.last_tevs[slot] ~= nil then
-- end of hold, signal hold release
DEBUG("hold_release detected in slot", slot)
local last_x = self.last_tevs[slot].x
local last_y = self.last_tevs[slot].y
self:clearState(slot)
return {
ges = "hold_release",
pos = Geom:new{
x = last_x,
y = last_y,
w = 0, h = 0,
},
time = tev.timev,
}
elseif (tev.x and math.abs(tev.x - self.first_tevs[slot].x) >= self.PAN_THRESHOLD) or
(tev.y and math.abs(tev.y - self.first_tevs[slot].y) >= self.PAN_THRESHOLD) then
local ges_ev = self:handlePan(tev)
if ges_ev ~= nil then ges_ev.ges = "hold_pan" end
return ges_ev
end
end
--[[
@brief change gesture's x and y coordinates according to screen view mode
@param ges gesture that you want to adjust
@return adjusted gesture.
--]]
function GestureDetector:adjustGesCoordinate(ges)
if self.screen.cur_rotation_mode == 1 then
-- in landscape mode rotated 270
if ges.pos then
ges.pos.x, ges.pos.y = (self.screen:getWidth() - ges.pos.y), (ges.pos.x)
end
if ges.ges == "swipe" or ges.ges == "pan"
or ges.ges == "two_finger_swipe"
or ges.ges == "two_finger_pan" then
if ges.direction == "north" then
ges.direction = "east"
elseif ges.direction == "south" then
ges.direction = "west"
elseif ges.direction == "east" then
ges.direction = "south"
elseif ges.direction == "west" then
ges.direction = "north"
elseif ges.direction == "northeast" then
ges.direction = "southeast"
elseif ges.direction == "northwest" then
ges.direction = "northeast"
elseif ges.direction == "southeast" then
ges.direction = "southwest"
elseif ges.direction == "southwest" then
ges.direction = "northwest"
end
if ges.relative then
ges.relative.x, ges.relative.y = -ges.relative.y, ges.relative.x
end
elseif ges.ges == "pinch" or ges.ges == "spread"
or ges.ges == "inward_pan"
or ges.ges == "outward_pan" then
if ges.direction == "horizontal" then
ges.direction = "vertical"
elseif ges.direction == "vertical" then
ges.direction = "horizontal"
end
end
elseif self.screen.cur_rotation_mode == 3 then
-- in landscape mode rotated 90
if ges.pos then
ges.pos.x, ges.pos.y = (ges.pos.y), (self.screen:getHeight() - ges.pos.x)
end
if ges.ges == "swipe" or ges.ges == "pan"
or ges.ges == "two_finger_swipe"
or ges.ges == "two_finger_pan" then
if ges.direction == "north" then
ges.direction = "west"
elseif ges.direction == "south" then
ges.direction = "east"
elseif ges.direction == "east" then
ges.direction = "north"
elseif ges.direction == "west" then
ges.direction = "south"
elseif ges.direction == "northeast" then
ges.direction = "northwest"
elseif ges.direction == "northwest" then
ges.direction = "southeast"
elseif ges.direction == "southeast" then
ges.direction = "northeast"
elseif ges.direction == "southwest" then
ges.direction = "southeast"
end
if ges.relative then
ges.relative.x, ges.relative.y = ges.relative.y, -ges.relative.x
end
elseif ges.ges == "pinch" or ges.ges == "spread"
or ges.ges == "inward_pan"
or ges.ges == "outward_pan" then
if ges.direction == "horizontal" then
ges.direction = "vertical"
elseif ges.direction == "vertical" then
ges.direction = "horizontal"
end
end
end
return ges
end
return GestureDetector
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