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easing.lua
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easing.lua
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--[[
Author of this easing functions for Lua is Josh Tynjala
https://github.com/joshtynjala/gtween.lua
Licensed under the MIT license.
Easing functions adapted from Robert Penner's AS3 tweening equations.
]]
local backS = 1.70158
easing = {};
easing.inBack = function(ratio)
return ratio*ratio*((backS+1)*ratio-backS)
end
easing.outBack = function(ratio)
ratio = ratio - 1
return ratio*ratio*((backS+1)*ratio+backS)+1
end
easing.inOutBack = function(ratio)
ratio = ratio * 2
if ratio < 1 then
return 0.5*(ratio*ratio*((backS*1.525+1)*ratio-backS*1.525))
else
ratio = ratio - 2
return 0.5*(ratio*ratio*((backS*1.525+1)*ratio+backS*1.525)+2)
end
end
easing.inBounce = function(ratio)
return 1-easing.outBounce(1-ratio,0,0,0)
end
easing.outBounce = function(ratio)
if ratio < 1/2.75 then
return 7.5625*ratio*ratio
elseif ratio < 2/2.75 then
ratio = ratio - 1.5/2.75
return 7.5625*ratio*ratio+0.75
elseif ratio < 2.5/2.75 then
ratio= ratio - 2.25/2.75
return 7.5625*ratio*ratio+0.9375
else
ratio = ratio - 2.625/2.75
return 7.5625*ratio*ratio+0.984375
end
end
easing.inOutBounce = function(ratio)
ratio = ratio * 2
if ratio < 1 then
return 0.5*easing.inBounce(ratio,0,0,0)
else
return 0.5*easing.outBounce(ratio-1,0,0,0)+0.5
end
end
easing.inCircular = function(ratio)
return -(math.sqrt(1-ratio*ratio)-1)
end
easing.outCircular = function(ratio)
return math.sqrt(1-(ratio-1)*(ratio-1))
end
easing.inOutCircular = function(ratio)
ratio = ratio * 2
if ratio < 1 then
return -0.5*(math.sqrt(1-ratio*ratio)-1)
else
ratio = ratio - 2
return 0.5*(math.sqrt(1-ratio*ratio)+1)
end
end
easing.inCubic = function(ratio)
return ratio*ratio*ratio
end
easing.outCubic = function(ratio)
ratio = ratio - 1
return ratio*ratio*ratio+1
end
easing.inOutCubic = function(ratio)
if ratio < 0.5 then
return 4*ratio*ratio*ratio
else
ratio = ratio - 1
return 4*ratio*ratio*ratio+1
end
end
local elasticA = 1;
local elasticP = 0.3;
local elasticS = elasticP/4;
easing.inElastic = function(ratio)
if ratio == 0 or ratio == 1 then
return ratio
end
ratio = ratio - 1
return -(elasticA * math.pow(2, 10 * ratio) * math.sin((ratio - elasticS) * (2 * math.pi) / elasticP));
end
easing.outElastic = function(ratio)
if ratio == 0 or ratio == 1 then
return ratio
end
return elasticA * math.pow(2, -10 * ratio) * math.sin((ratio - elasticS) * (2 * math.pi) / elasticP) + 1;
end
easing.inOutElastic = function(ratio)
if ratio == 0 or ratio == 1 then
return ratio
end
ratio = ratio*2-1
if ratio < 0 then
return -0.5 * (elasticA * math.pow(2, 10 * ratio) * math.sin((ratio - elasticS*1.5) * (2 * math.pi) /(elasticP*1.5)));
end
return 0.5 * elasticA * math.pow(2, -10 * ratio) * math.sin((ratio - elasticS*1.5) * (2 * math.pi) / (elasticP*1.5)) + 1;
end
easing.inExponential = function(ratio)
if ratio == 0 then
return 0
end
return math.pow(2, 10 * (ratio - 1))
end
easing.outExponential = function(ratio)
if ratio == 1 then
return 1
end
return 1-math.pow(2, -10 * ratio)
end
easing.inOutExponential = function(ratio)
if ratio == 0 or ratio == 1 then
return ratio
end
ratio = ratio*2-1
if 0 > ratio then
return 0.5*math.pow(2, 10*ratio)
end
return 1-0.5*math.pow(2, -10*ratio)
end
easing.linear = function(ratio)
return ratio
end
easing.inQuadratic = function(ratio)
return ratio*ratio
end
easing.outQuadratic = function(ratio)
return -ratio*(ratio-2)
end
easing.inOutQuadratic = function(ratio)
if ratio < 0.5 then
return 2*ratio*ratio
end
return -2*ratio*(ratio-2)-1
end
easing.inQuartic = function(ratio)
return ratio*ratio*ratio*ratio
end
easing.outQuartic = function(ratio)
ratio = ratio - 1
return 1-ratio*ratio*ratio*ratio
end
easing.inOutQuartic = function(ratio)
if ratio < 0.5 then
return 8*ratio*ratio*ratio*ratio
end
ratio = ratio - 1
return -8*ratio*ratio*ratio*ratio+1
end
easing.inQuintic = function(ratio)
return ratio*ratio*ratio*ratio*ratio
end
easing.outQuintic = function(ratio)
ratio = ratio - 1
return 1+ratio*ratio*ratio*ratio*ratio
end
easing.inOutQuintic = function(ratio)
if ratio < 0.5 then
return 16*ratio*ratio*ratio*ratio*ratio
end
ratio = ratio - 1
return 16*ratio*ratio*ratio*ratio*ratio+1
end
easing.inSine = function(ratio)
return 1-math.cos(ratio * (math.pi / 2))
end
easing.outSine = function(ratio)
return math.sin(ratio * (math.pi / 2))
end
easing.inOutSine = function(ratio)
return -0.5*(math.cos(ratio*math.pi)-1)
end