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The FEExpression class takes two arguments: the element(s) to animate and an object containing the animation expressions. The expressions are functions that take a single argument, t , which represents the animation time.
<svg viewBox="0 0 200 200"> <g id="sushi-roll"> <rect x="50" y="50" width="100" height="100" fill="#FFC700" rx="20" /> <path d="M 100 50 L 150 100 L 100 150 Z" fill="#FFC700" /> </g> <g> <circle class="topping" cx="80" cy="80" r="10" fill="#FF69B4" /> <circle class="topping" cx="120" cy="80" r="10" fill="#FF69B4" /> <circle class="topping" cx="100" cy="120" r="10" fill="#FF69B4" /> </g> </svg> fe expression script sushi x top
// Define the topping animation const toppingAnimation = new FEExpression(toppings, { // Define the movement expression translateX: (t) => `translateX(${Math.sin(t * Math.PI * 2) * 50}px)`, translateY: (t) => `translateY(${Math.cos(t * Math.PI * 2) * 50}px)`, }); The FEExpression class takes two arguments: the element(s)
For this example, we'll create a Sushi X Top animation that showcases the library's capabilities. The animation features a sushi roll rotating and scaling, with toppings (represented by small circles) moving in sync with the roll. The animation features a sushi roll rotating and