uniform float u_time; uniform vec2 u_mouse; uniform sampler2D u_texture1; #define PI 3.141592654 float decay(float v, float t) { return v * (1.0 / (1.0 + t*t)); } void mainImage(out vec4 fragColor, in vec2 fragCoord, in vec2 resolution, in vec2 uv) { // Temporary to loop time every 1 sec float time = u_time; // we normalize all the effects according to the min height/width float size = min(resolution.x, resolution.y); // Animate one wave over size in 0.3 sec float wave_speed = size / 0.3; float wave_length = size / 1.0; float wave_height = size * 0.1; vec2 center = u_mouse; vec2 direction_from_center = fragCoord - center; float distance_from_center = length(direction_from_center); /* Normalize direction */ direction_from_center = direction_from_center / distance_from_center; float propagation_length = time * wave_speed; float t = (propagation_length - distance_from_center) / wave_length; float offset_magnitude = 0; if (t > 0.0) offset_magnitude = decay(wave_height * sin(t * 2.0 * PI), t); vec2 offset = direction_from_center * min(offset_magnitude, distance_from_center); vec2 source = fragCoord - offset; vec2 uv2 = source / resolution; fragColor = GskTexture(u_texture1, vec2(uv2.x, 1.0-uv2.y)); }