#ifdef GL_OES_standard_derivatives #extension GL_OES_standard_derivatives : enable #endif uniform vec4 color; uniform float cellAlpha; uniform vec2 lineCount; uniform vec2 lineThickness; uniform vec2 lineOffset; czm_material czm_getMaterial(czm_materialInput materialInput) { czm_material material = czm_getDefaultMaterial(materialInput); vec2 st = materialInput.st; float scaledWidth = fract(lineCount.s * st.s - lineOffset.s); scaledWidth = abs(scaledWidth - floor(scaledWidth + 0.5)); float scaledHeight = fract(lineCount.t * st.t - lineOffset.t); scaledHeight = abs(scaledHeight - floor(scaledHeight + 0.5)); float value; #ifdef GL_OES_standard_derivatives // Fuzz Factor - Controls blurriness of lines const float fuzz = 1.2; vec2 thickness = (lineThickness * czm_pixelRatio) - 1.0; // From "3D Engine Design for Virtual Globes" by Cozzi and Ring, Listing 4.13. vec2 dx = abs(dFdx(st)); vec2 dy = abs(dFdy(st)); vec2 dF = vec2(max(dx.s, dy.s), max(dx.t, dy.t)) * lineCount; value = min( smoothstep(dF.s * thickness.s, dF.s * (fuzz + thickness.s), scaledWidth), smoothstep(dF.t * thickness.t, dF.t * (fuzz + thickness.t), scaledHeight)); #else // Fuzz Factor - Controls blurriness of lines const float fuzz = 0.05; vec2 range = 0.5 - (lineThickness * 0.05); value = min( 1.0 - smoothstep(range.s, range.s + fuzz, scaledWidth), 1.0 - smoothstep(range.t, range.t + fuzz, scaledHeight)); #endif // Edges taken from RimLightingMaterial.glsl // See http://www.fundza.com/rman_shaders/surface/fake_rim/fake_rim1.html float dRim = 1.0 - abs(dot(materialInput.normalEC, normalize(materialInput.positionToEyeEC))); float sRim = smoothstep(0.8, 1.0, dRim); value *= (1.0 - sRim); vec4 halfColor; halfColor.rgb = color.rgb * 0.5; halfColor.a = color.a * (1.0 - ((1.0 - cellAlpha) * value)); halfColor = czm_gammaCorrect(halfColor); material.diffuse = halfColor.rgb; material.emission = halfColor.rgb; material.alpha = halfColor.a; return material; }