#pragma once #include inline const std::string FRAGSHADOW = R"#( precision mediump float; varying vec4 v_color; varying vec2 v_texcoord; uniform vec2 topLeft; uniform vec2 bottomRight; uniform vec2 fullSize; uniform float radius; uniform float range; uniform float shadowPower; uniform int ignoreWindow; float pixAlphaRoundedDistance(float distanceToCorner) { if (distanceToCorner > radius) { return 0.0; } if (distanceToCorner > radius - range) { return pow((range - (distanceToCorner - radius + range)) / range, shadowPower); // i think? } return 1.0; } void main() { vec4 pixColor = v_color; float originalAlpha = pixColor[3]; bool done = false; vec2 pixCoord = fullSize * v_texcoord; // ok, now we check the distance to a border. if (pixCoord[0] < topLeft[0]) { if (pixCoord[1] < topLeft[1]) { // top left pixColor[3] = pixColor[3] * pixAlphaRoundedDistance(distance(pixCoord, topLeft)); done = true; } else if (pixCoord[1] > bottomRight[1]) { // bottom left pixColor[3] = pixColor[3] * pixAlphaRoundedDistance(distance(pixCoord, vec2(topLeft[0], bottomRight[1]))); done = true; } } else if (pixCoord[0] > bottomRight[0]) { if (pixCoord[1] < topLeft[1]) { // top right pixColor[3] = pixColor[3] * pixAlphaRoundedDistance(distance(pixCoord, vec2(bottomRight[0], topLeft[1]))); done = true; } else if (pixCoord[1] > bottomRight[1]) { // bottom right pixColor[3] = pixColor[3] * pixAlphaRoundedDistance(distance(pixCoord, bottomRight)); done = true; } } if (!done) { // distance to all straight bb borders float distanceT = pixCoord[1]; float distanceB = fullSize[1] - pixCoord[1]; float distanceL = pixCoord[0]; float distanceR = fullSize[0] - pixCoord[0]; // get the smallest float smallest = min(min(distanceT, distanceB), min(distanceL, distanceR)); if (smallest < range) { pixColor[3] = pixColor[3] * pow((smallest / range), shadowPower); } } if (pixColor[3] == 0.0 || (ignoreWindow == 1 && pixColor[3] == originalAlpha)) { discard; return; } gl_FragColor = pixColor; })#";