# Implementing EaseIn, EaseOut functions in Delphi

I am trying to implement fluid movement of tabs in TChromeTabs. I can see the easing formulas here, but I am no mathematician and have no idea how to translate this into code. My attempts so far have got me nowhere.

Are there Delphi implementations of the Easing functions available?

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You can test the easing effect types here gizma.com/easing aditionaly it has some explanations and some code samples. –  Diego Garcia Dec 19 '12 at 13:28
Do you have any code? For example a stub that needs to be filled out with a particular easing function? –  David Heffernan Dec 19 '12 at 13:33

I found several useful examples online and used the algorithms to write my own Delphi Easing functions. Here they are:

``````...

type
TChromeTabsEaseType = (
ttlinearTween,
tteaseInCubic,
tteaseOutCubic,
tteaseInOutCubic,
tteaseInQuart,
tteaseOutQuart,
tteaseInOutQuart,
tteaseInQuint,
tteaseOutQuint,
tteaseInOutQuint,
tteaseInSine,
tteaseOutSine,
tteaseInOutSine,
tteaseInExpo,
tteaseOutExpo,
tteaseInOutExpo,
tteaseInCirc,
tteaseOutCirc,
tteaseInOutCirc
);

function CalculateEase(CurrentTime, StartValue, ChangeInValue, Duration: Real; EaseType: TChromeTabsEaseType): Real; overload;
function CalculateEase(StartPos, EndPos, PositionPct: Real; EaseType: TChromeTabsEaseType): Real; overload;

implementation

function CalculateEase(CurrentTime, StartValue, ChangeInValue, Duration: Real; EaseType: TChromeTabsEaseType): Real;
begin
case EaseType of
ttLinearTween:
begin
Result := ChangeInValue * CurrentTime / Duration + StartValue;
end;

begin
CurrentTime := CurrentTime / Duration;

Result := ChangeInValue * CurrentTime * CurrentTime + StartValue;
end;

begin
CurrentTime := CurrentTime / Duration;

Result := -ChangeInValue * CurrentTime * (CurrentTime-2) + StartValue;
end;

begin
CurrentTime := CurrentTime / (Duration / 2);

if CurrentTime < 1 then
Result := ChangeInValue / 2 * CurrentTime * CurrentTime + StartValue
else
begin
CurrentTime := CurrentTime - 1;
Result := -ChangeInValue / 2 * (CurrentTime * (CurrentTime - 2) - 1) + StartValue;
end;
end;

ttEaseInCubic:
begin
CurrentTime := CurrentTime / Duration;

Result := ChangeInValue * CurrentTime * CurrentTime * CurrentTime + StartValue;
end;

ttEaseOutCubic:
begin
CurrentTime := (CurrentTime / Duration) - 1;

Result := ChangeInValue * ( CurrentTime * CurrentTime * CurrentTime + 1) + StartValue;
end;

ttEaseInOutCubic:
begin
CurrentTime := CurrentTime / (Duration/2);

if CurrentTime < 1 then
Result := ChangeInValue / 2 * CurrentTime * CurrentTime * CurrentTime + StartValue
else
begin
CurrentTime := CurrentTime - 2;

Result := ChangeInValue / 2 * (CurrentTime * CurrentTime * CurrentTime + 2) + StartValue;
end;
end;

ttEaseInQuart:
begin
CurrentTime := CurrentTime / Duration;

Result := ChangeInValue * CurrentTime * CurrentTime * CurrentTime * CurrentTime + StartValue;
end;

ttEaseOutQuart:
begin
CurrentTime := (CurrentTime / Duration) - 1;

Result := -ChangeInValue * (CurrentTime * CurrentTime * CurrentTime * CurrentTime - 1) + StartValue;
end;

ttEaseInOutQuart:
begin
CurrentTime := CurrentTime / (Duration / 2);

if CurrentTime < 1 then
Result := ChangeInValue / 2 * CurrentTime * CurrentTime * CurrentTime * CurrentTime + StartValue
else
begin
CurrentTime := CurrentTime - 2;

Result := -ChangeInValue / 2 * (CurrentTime * CurrentTime * CurrentTime * CurrentTime - 2) + StartValue;
end;
end;

ttEaseInQuint:
begin
CurrentTime := CurrentTime / Duration;

Result := ChangeInValue * CurrentTime * CurrentTime * CurrentTime * CurrentTime * CurrentTime + StartValue;
end;

ttEaseOutQuint:
begin
CurrentTime := (CurrentTime / Duration) - 1;

Result := ChangeInValue * (CurrentTime * CurrentTime * CurrentTime * CurrentTime * CurrentTime + 1) + StartValue;
end;

ttEaseInOutQuint:
begin
CurrentTime := CurrentTime / (Duration / 2);
if CurrentTime < 1 then
Result := ChangeInValue / 2 * CurrentTime * CurrentTime * CurrentTime * CurrentTime * CurrentTime + StartValue
else
begin
CurrentTime := CurrentTime - 2;

Result := ChangeInValue / 2 * (CurrentTime * CurrentTime * CurrentTime * CurrentTime * CurrentTime + 2) + StartValue;
end;
end;

ttEaseInSine:
begin
Result := -ChangeInValue * Cos(CurrentTime / Duration * (PI / 2)) + ChangeInValue + StartValue;
end;

ttEaseOutSine:
begin
Result := ChangeInValue * Sin(CurrentTime / Duration * (PI / 2)) + StartValue;
end;

ttEaseInOutSine:
begin
Result := -ChangeInValue / 2 * (Cos(PI * CurrentTime / Duration) - 1) + StartValue;
end;

ttEaseInExpo:
begin
Result := ChangeInValue * Power(2, 10 * (CurrentTime/Duration - 1) ) + StartValue;
end;

ttEaseOutExpo:
begin
Result := ChangeInValue * (-Power(2, -10 * CurrentTime / Duration ) + 1 ) + StartValue;
end;

ttEaseInOutExpo:
begin
CurrentTime := CurrentTime / (Duration/2);

if CurrentTime < 1 then
Result := ChangeInValue / 2 * Power(2, 10 * (CurrentTime - 1) ) + StartValue
else
begin
CurrentTime := CurrentTime - 1;

Result := ChangeInValue / 2 * (-Power(2, -10 * CurrentTime) + 2 ) + StartValue;
end;
end;

ttEaseInCirc:
begin
CurrentTime := CurrentTime / Duration;

Result := -ChangeInValue * (Sqrt(1 - CurrentTime * CurrentTime) - 1) + StartValue;
end;

ttEaseOutCirc:
begin
CurrentTime := (CurrentTime / Duration) - 1;

Result := ChangeInValue * Sqrt(1 - CurrentTime * CurrentTime) + StartValue;
end;

ttEaseInOutCirc:
begin
CurrentTime := CurrentTime / (Duration / 2);

if CurrentTime < 1 then
Result := -ChangeInValue / 2 * (Sqrt(1 - CurrentTime * CurrentTime) - 1) + StartValue
else
begin
CurrentTime := CurrentTime - 2;

Result := ChangeInValue / 2 * (Sqrt(1 - CurrentTime * CurrentTime) + 1) + StartValue;
end;
end;
end;
end;

function CalculateEase(StartPos, EndPos, PositionPct: Real; EaseType: TChromeTabsEaseType): Real;
var
t, b, c, d: Real;
begin
c := EndPos - StartPos;
d := 100;
t := PositionPct;
b := StartPos;

Result := CalculateEase(t, b, c, d, EaseType);
end;

...
``````
-
Nice ;) you should accept your on answear in that case :) –  Diego Garcia Dec 20 '12 at 13:50
@Diego - I will, but I need to wait 2 days before SO will let me :o) –  norgepaul Dec 20 '12 at 16:41
What about the license of that code? Is it ok to use it in commercial application? –  Flash Dec 11 '13 at 19:52
@Flash - Yes, you can use it in commercial applications. You can find the TChromeTabs component here: code.google.com/p/delphi-chrome-tabs. It is open source and uses the the Mozilla Public License 1.1. –  norgepaul Dec 13 '13 at 9:17