Im try to do wave with interactive animation on canvas and library Processing.js. This wave must move like water. When part of wave interact with mouse coords, transformation is too fast. Whose know how to make this transformation smooth and slow with processing.js/p5.j?
There is a link to this example on codepen: https://codepen.io/todoryshyna-maryna/pen/wQbdXO?editors=0010
There is example of code:
function program(proc) {
var yvalues = [];
theta = 0.0;
theta01 = 0.0;
theta02 = 0.0;
points = [
[1583.5, 103.8, 1564.9, 157.4, 1476.2, 157.4],
[1387.5, 157.4, 1321.2, 119.2, 1200.5, 119.3],
[1079.7, 119.5, 1046.6, 180.0, 960.0, 180.0],
[865.7, 180.0, 819.4, 129.4, 699.7, 129.3],
[580.0, 129.2, 548.6, 159.9, 461.3, 159.9],
[374.0, 159.9, 361.2, 102.8, 0.0, 90.0],
[361.2, 75.2, 374.7, 23.9, 461.3, 23.7],
[547.9, 23.4, 586.3, 59.1, 699.8, 59.1],
[813.3, 59.1, 865.8, 0.0, 960.0, 0.0],
[1046.2, 0.0, 1089.3, 67.5, 1199.6, 67.5],
[1309.9, 67.5, 1387.4, 22.5, 1475.9, 23.3],
[1564.3, 24.0, 1583.1, 75.2, 1920.0, 90.0],
];
proc.setup = function() {
width = window.outerWidth;
height = window.innerHeight;
proc.size(width, 450);
proc.smooth(8);
proc.frameRate(30);
proc.strokeWeight(1);
amplitude = proc.height / 8;
w = proc.width + 16;
};
proc.draw = function() {
proc.background(255, 255, 255, 0);
let color = proc.color(0, 255, 199, 100);
let set = {
points: points,
vertex: '',
color: color,
animateWave: animateWave1,
}
createWave(proc, set, [1920.0, 90.0]);
proc.noStroke();
};
}
var canvas = document.getElementById("canvas");
var instance = new Processing(canvas, program);
instance.translate(0, 450 / 4);
instance.scale(0.8, 0.8);
function createWave(proc, props, points) {
proc.beginShape();
proc.lineJoin = 'round';
proc.vertex(points[0], points[1]);
var pointsLength = props.points.length;
props.points.forEach((point, index) => {
props.animateWave(proc, point, index, pointsLength, props.random);
})
proc.fill(props.color);
proc.endShape();
}
function animateWave1(proc, point, index, pointsLength, random) {
var sin2 = 2;
var sinHalf = 1.5;
var ty = proc.bezierTangent(20, 10, 90, 80, 0.5);
var tx = proc.bezierTangent(85, 10, 90, 15, 0.5);
var a = proc.atan2(ty, tx);
a += proc.PI;
var cy1 = (proc.sin(theta) * amplitude / 3) + (point[1] * proc.sin(sin2));
var cy2 = (proc.sin(theta) * amplitude / 3) + (point[3] * proc.sin(sin2));
var cy3 = (proc.sin(theta) * amplitude / 3) + (point[5] * proc.sin(sin2));
var cy1i0 = (proc.sin(theta01) * amplitude / 3) + (point[1] * proc.sin(sin2));
var cy2i0 = (proc.sin(theta01) * amplitude / 3) + (point[3] * proc.sin(sin2));
var cy3i0 = (proc.sin(theta01) * amplitude / 3) + (point[5] * proc.sin(sin2));
var cy1i1 = (proc.sin(theta02) * amplitude / 3) + (point[1] * proc.sin(sin2));
var cy2i1 = (proc.sin(theta02) * amplitude / 3) + (point[3] * proc.sin(sin2));
var cy3i1 = (proc.sin(theta02) * amplitude / 3) + (point[5] * proc.sin(sin2));
var cy01 = (proc.cos(theta + (Math.PI)) * amplitude / 4) + (point[1] * proc.sin(sinHalf));
var cy02 = (proc.cos(theta + (Math.PI)) * amplitude / 4) + (point[3] * proc.sin(sinHalf));
var cy03 = (proc.cos(theta + (Math.PI)) * amplitude / 4) + (point[5] * proc.sin(sinHalf));
var cy01i0 = (proc.cos(theta01 + (Math.PI)) * amplitude / 4) + (point[1] * proc.sin(sinHalf));
var cy02i0 = (proc.cos(theta01 + (Math.PI)) * amplitude / 4) + (point[3] * proc.sin(sinHalf));
var cy03i0 = (proc.cos(theta01 + (Math.PI)) * amplitude / 4) + (point[5] * proc.sin(sinHalf));
var cy01i2 = (proc.cos(theta02 - 2 + (Math.PI)) * amplitude / 4) + (point[1] * proc.sin(sinHalf));
var cy02i2 = (proc.cos(theta02 - 2 + (Math.PI)) * amplitude / 4) + (point[3] * proc.sin(sinHalf));
var cy03i2 = (proc.cos(theta02 - 2 + (Math.PI)) * amplitude / 4) + (point[5] * proc.sin(sinHalf));
/* --------comparison bottom points---------- */
var yScale = 0;
var yScale2 = 0;
var yScale3 = 0;
if (index < (pointsLength) / 2) {
if (index === (pointsLength / 2) - 1) {
cy03 = point[5];
}
if (index === 0 || index === 1) {
cy01 = cy01i0;
cy02 = cy02i0;
cy03 = cy03i0;
if (index === 1) {
cy03 = cy03i0 / (amplitude / 55.5);
cy02 = cy02i0 / (amplitude / 55.5);
}
}
if (index === 2 || index === 3) {
cy01 = cy01i2;
cy02 = cy02i2;
cy03 = cy03i2;
if (index === 3) {
cy03 = cy03i2 / (amplitude / 56.8);
cy02 = cy02i2 / (amplitude / 55.8);
}
}
if (proc.mouseX > proc.width / 2.5 && proc.mouseX + 80 <= proc.width / 1.2) {
if (index === 1) {
cy01 = proc.lerp(proc.mouseX / 2.3, cy01 / 2, 0.5)
cy02 = proc.lerp(proc.mouseX / 2.3, cy02 / 3, 0.5)
cy03 = proc.lerp(proc.mouseX / 2.3, cy03 / 3, 0.5) - 70
}
if (index === 0) {
cy01 = proc.lerp(proc.mouseX / 2.3, cy01 / 3, 0.5)
cy02 = proc.lerp(proc.mouseX / 2.3, cy02 / 3, 0.5)
cy03 = proc.lerp(proc.mouseX / 2.3, cy03 / 2, 0.5)
}
} else if (proc.mouseX > proc.width / 3 && proc.mouseX + 80 <= proc.width / 1.5) {
if (index === 2) {
cy01 = proc.lerp(proc.mouseX / 2, cy01, 0.5)
cy02 = proc.lerp(proc.mouseX / 2, cy02, 0.9)
}
if (index === 1) {
cy01 = proc.lerp(proc.mouseX / 2, cy01, 1)
cy02 = proc.lerp(proc.mouseX / 2, cy02, 0.5)
cy03 = proc.lerp(proc.mouseX / 2, cy03, 0.5)
}
} else if (proc.mouseX > proc.width / 4 && proc.mouseX + 80 <= proc.width / 2.5) {
if (index === 2) {
cy01 = proc.lerp(proc.mouseX / 1.8, cy01, 0.5)
cy02 = proc.lerp(proc.mouseX / 1.8, cy02, 0.5)
cy03 = proc.lerp(proc.mouseX / 1.8, cy03, 0.5)
}
if (index === 1) {
cy03 = proc.lerp(proc.mouseX / 1.8, cy03 - 100, 0.5)
}
if (index === 3) {
cy01 = proc.lerp(proc.mouseX / 1.8, cy01, 0.5)
cy02 = proc.lerp(proc.mouseX / 1.8, cy02, 0.5)
cy03 = proc.lerp(proc.mouseX / 1.8, cy03, 0.7)
}
} else if (proc.mouseX > proc.width / 7 && proc.mouseX + 80 <= proc.width / 3) {
if (index === 4) {
cy01 = proc.lerp(proc.mouseX, cy01 - 50, 0.4)
cy02 = proc.lerp(proc.mouseX, cy02, 0.9)
cy03 = cy03 + 10
}
if (index === 3) {
cy01 = proc.lerp(proc.mouseX, cy01, 0.9)
cy02 = proc.lerp(proc.mouseX, cy02 - 50, 0.6)
cy03 = proc.lerp(proc.mouseX, cy03 - 50, 0.5)
}
} else if (proc.mouseX > proc.width / 16 && proc.mouseX + 80 <= proc.width / 5) {
if (index === 4) {
cy01 = proc.lerp(proc.mouseX + 80, cy01, 0.5)
cy02 = proc.lerp(proc.mouseX + 80, cy02, 0.5)
cy03 = proc.lerp(proc.mouseX + 80, cy03, 0.5)
}
if (index === 3) {
cy01 = point[1];
cy03 = proc.lerp(proc.mouseX / 1.5, point[5] + 70, 0.5)
}
if (index === 5) {
cy01 = proc.lerp(proc.mouseX + 90, cy01, 0.5)
cy02 = proc.lerp(proc.mouseX + 90, cy02, 0.5)
cy03 = point[5]
}
}
proc.bezierVertex(
point[0], cy01 + proc.sin(a) * -4,
point[2], cy02 + proc.sin(a) * -4,
point[4], cy03 + proc.sin(a) * -4
);
}
/* --------comparison top points---------- */
if (index >= (pointsLength) / 2) {
if (index === pointsLength - 1) {
cy3 = point[5];
}
if (index === pointsLength - 1 || index === pointsLength - 2) {
cy1 = cy1i0;
cy2 = cy2i0;
cy3 = cy3i0;
if (index === pointsLength - 1) {
cy3 = point[5];
} else {
cy2 = cy2i0 / (amplitude / 55.5);
cy1 = cy1i0 / (amplitude / 55.5);
}
}
if (index === pointsLength - 3 || index === pointsLength - 4) {
cy1 = cy1i1;
cy2 = cy2i1;
cy3 = cy3i1;
if (index === pointsLength - 3) {
cy2 = cy2i1 / (amplitude / 55.5);
cy3 = cy3i1 / (amplitude / 58.5);
}
}
if (index === pointsLength - 5 || index === pointsLength - 6) {
cy1 = cy1;
cy2 = cy2;
cy3 = cy3;
if (index === pointsLength - 5) {
cy2 = cy2 / (amplitude / 55.5);
cy3 = cy3 / (amplitude / 55.5);
}
}
proc.bezierVertex(
point[0], cy1 - yScale + proc.sin(a),
point[2], cy2 - yScale2 + proc.sin(a),
point[4], cy3 - yScale3 + proc.sin(a)
);
}
theta += 0.004;
theta01 += 0.0042;
theta02 += 0.0044;
}
#canvas {
width: 100%;
max-width: 1920px;
}
<canvas id="canvas"></canvas>
<script src="https://cdnjs.cloudflare.com/ajax/libs/processing.js/1.4.8/processing.min.js"></script>