Difference between revisions of "Tweeners"
m |
m |
||
Line 3: | Line 3: | ||
A Tween defines how an animation progresses from its initial value to its final value. The simplest way this can be accomplished is to go straight from start to finish in equal steps. This results in a smooth transition, however it starts and stops abruptly and tends to be a bit ''unnatural''. Unnatural in the sense that, in the real world, you never see a linear transition. In the real world, transitions (movements, deformations, etc) are always accompanied by ''varying'' degrees of acceleration and deceleration. Some real world examples that come to mind: the movement of a pendulum, a ball bouncing, our breathing pattern, a bungee jump. Tweens basically try to mathematically recreate some of these transitions and can help add naturalism to animations. | A Tween defines how an animation progresses from its initial value to its final value. The simplest way this can be accomplished is to go straight from start to finish in equal steps. This results in a smooth transition, however it starts and stops abruptly and tends to be a bit ''unnatural''. Unnatural in the sense that, in the real world, you never see a linear transition. In the real world, transitions (movements, deformations, etc) are always accompanied by ''varying'' degrees of acceleration and deceleration. Some real world examples that come to mind: the movement of a pendulum, a ball bouncing, our breathing pattern, a bungee jump. Tweens basically try to mathematically recreate some of these transitions and can help add naturalism to animations. | ||
− | + | = What is Easing? = | |
All tweens (except Linear) support an ''easing'' attribute that can be one of "in", "out", or "inout". The Quadratic tweener only supports "in" and "out". The default easing method is "out". Easing is basically the direction of the tween action. Looking at the various graphs below and trying the tweens out will make the concept of easing, easier (hehe, say that ten times in a row) to understand. | All tweens (except Linear) support an ''easing'' attribute that can be one of "in", "out", or "inout". The Quadratic tweener only supports "in" and "out". The default easing method is "out". Easing is basically the direction of the tween action. Looking at the various graphs below and trying the tweens out will make the concept of easing, easier (hehe, say that ten times in a row) to understand. | ||
Revision as of 20:02, 5 April 2016
Development | Add-on development | Skinning | Tweeners |
A Tween defines how an animation progresses from its initial value to its final value. The simplest way this can be accomplished is to go straight from start to finish in equal steps. This results in a smooth transition, however it starts and stops abruptly and tends to be a bit unnatural. Unnatural in the sense that, in the real world, you never see a linear transition. In the real world, transitions (movements, deformations, etc) are always accompanied by varying degrees of acceleration and deceleration. Some real world examples that come to mind: the movement of a pendulum, a ball bouncing, our breathing pattern, a bungee jump. Tweens basically try to mathematically recreate some of these transitions and can help add naturalism to animations.
Contents
1 What is Easing?
All tweens (except Linear) support an easing attribute that can be one of "in", "out", or "inout". The Quadratic tweener only supports "in" and "out". The default easing method is "out". Easing is basically the direction of the tween action. Looking at the various graphs below and trying the tweens out will make the concept of easing, easier (hehe, say that ten times in a row) to understand.
2 Supported Tweens
Currently, XBMC's skin engine supports eight different tweens: "linear", "quadratic", "bounce", "elastic", "cubic", "circle", "sine" and "back". They are set in an animation using the tween attribute. The animations next to each graph shows how that tween renders straight motion between 2 points. Tweens however aren't restricted to only motion effects, they can be used on alpha as well.
2.1 Linear Tweener
2.2 Quadratic Tweener
2.3 Bounce Tweener
2.4 Back Tweener
2.5 Cubic Tweener
2.6 Circle Tweener
2.7 Sine Tweener
2.8 Elastic Tweener
2.9 See also
Development: