--[[ Copyright (c) 2010-2013 Matthias Richter Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. Except as contained in this notice, the name(s) of the above copyright holders shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. ]]-- local Timer = {} Timer.__index = Timer local function _nothing_() end function Timer:update(dt) local to_remove = {} -- timers may create new timers, which leads to undefined behavior -- in pairs() - so we need to put them in a different table first local to_update = {} for handle in pairs(self.functions) do to_update[handle] = handle end for handle in pairs(to_update) do -- handle: { -- time = , -- after = , -- during = , -- limit = , -- count = , -- } handle.time = handle.time + dt handle.during(dt, math.max(handle.limit - handle.time, 0)) while handle.time >= handle.limit and handle.count > 0 do if handle.after(handle.after) == false then handle.count = 0 break end handle.time = handle.time - handle.limit handle.count = handle.count - 1 end if handle.count == 0 then table.insert(to_remove, handle) end end for i = 1, #to_remove do self.functions[to_remove[i]] = nil end end function Timer:during(delay, during, after) local handle = { time = 0, during = during, after = after or _nothing_, limit = delay, count = 1 } self.functions[handle] = true return handle end function Timer:after(delay, func) return self:during(delay, _nothing_, func) end function Timer:every(delay, after, count) local count = count or math.huge -- exploit below: math.huge - 1 = math.huge local handle = { time = 0, during = _nothing_, after = after, limit = delay, count = count } self.functions[handle] = true return handle end function Timer:cancel(handle) self.functions[handle] = nil end function Timer:clear() self.functions = {} end function Timer:script(f) local co = coroutine.wrap(f) co(function(t) self:after(t, co) coroutine.yield() end) end Timer.tween = setmetatable({ -- helper functions out = function(f) -- 'rotates' a function return function(s, ...) return 1 - f(1-s, ...) end end, chain = function(f1, f2) -- concatenates two functions return function(s, ...) return (s < .5 and f1(2*s, ...) or 1 + f2(2*s-1, ...)) * .5 end end, -- useful tweening functions linear = function(s) return s end, quad = function(s) return s*s end, cubic = function(s) return s*s*s end, quart = function(s) return s*s*s*s end, quint = function(s) return s*s*s*s*s end, sine = function(s) return 1-math.cos(s*math.pi/2) end, expo = function(s) return 2^(10*(s-1)) end, circ = function(s) return 1 - math.sqrt(1-s*s) end, back = function(s,bounciness) bounciness = bounciness or 1.70158 return s*s*((bounciness+1)*s - bounciness) end, bounce = function(s) -- magic numbers ahead local a,b = 7.5625, 1/2.75 return math.min(a*s^2, a*(s-1.5*b)^2 + .75, a*(s-2.25*b)^2 + .9375, a*(s-2.625*b)^2 + .984375) end, elastic = function(s, amp, period) amp, period = amp and math.max(1, amp) or 1, period or .3 return (-amp * math.sin(2*math.pi/period * (s-1) - math.asin(1/amp))) * 2^(10*(s-1)) end, }, { -- register new tween __call = function(tween, self, len, subject, target, method, after, ...) -- recursively collects fields that are defined in both subject and target into a flat list local function tween_collect_payload(subject, target, out) for k,v in pairs(target) do local ref = subject[k] assert(type(v) == type(ref), 'Type mismatch in field "'..k..'".') if type(v) == 'table' then tween_collect_payload(ref, v, out) else local ok, delta = pcall(function() return (v-ref)*1 end) assert(ok, 'Field "'..k..'" does not support arithmetic operations') out[#out+1] = {subject, k, delta} end end return out end method = tween[method or 'linear'] -- see __index local payload, t, args = tween_collect_payload(subject, target, {}), 0, {...} local last_s = 0 return self:during(len, function(dt) t = t + dt local s = method(math.min(1, t/len), unpack(args)) local ds = s - last_s last_s = s for _, info in ipairs(payload) do local ref, key, delta = unpack(info) ref[key] = ref[key] + delta * ds end end, after) end, -- fetches function and generated compositions for method `key` __index = function(tweens, key) if type(key) == 'function' then return key end assert(type(key) == 'string', 'Method must be function or string.') if rawget(tweens, key) then return rawget(tweens, key) end local function construct(pattern, f) local method = rawget(tweens, key:match(pattern)) if method then return f(method) end return nil end local out, chain = rawget(tweens,'out'), rawget(tweens,'chain') return construct('^in%-([^-]+)$', function(...) return ... end) or construct('^out%-([^-]+)$', out) or construct('^in%-out%-([^-]+)$', function(f) return chain(f, out(f)) end) or construct('^out%-in%-([^-]+)$', function(f) return chain(out(f), f) end) or error('Unknown interpolation method: ' .. key) end}) -- Timer instancing function Timer.new() return setmetatable({functions = {}, tween = Timer.tween}, Timer) end -- default instance local default = Timer.new() -- module forwards calls to default instance local module = {} for k in pairs(Timer) do if k ~= "__index" then module[k] = function(...) return default[k](default, ...) end end end module.tween = setmetatable({}, { __index = Timer.tween, __newindex = function(k,v) Timer.tween[k] = v end, __call = function(t, ...) return default:tween(...) end, }) return setmetatable(module, {__call = Timer.new})