uniform float u_maxTotalPointSize; attribute vec4 positionHighAndSize; attribute vec4 positionLowAndOutline; attribute vec4 compressedAttribute0; // color, outlineColor, pick color attribute vec4 compressedAttribute1; // show, translucency by distance, some free space attribute vec4 scaleByDistance; // near, nearScale, far, farScale attribute vec3 distanceDisplayConditionAndDisableDepth; // near, far, disableDepthTestDistance varying vec4 v_color; varying vec4 v_outlineColor; varying float v_innerPercent; varying float v_pixelDistance; varying vec4 v_pickColor; const float SHIFT_LEFT8 = 256.0; const float SHIFT_RIGHT8 = 1.0 / 256.0; void main() { // Modifying this shader may also require modifications to PointPrimitive._computeScreenSpacePosition // unpack attributes vec3 positionHigh = positionHighAndSize.xyz; vec3 positionLow = positionLowAndOutline.xyz; float outlineWidthBothSides = 2.0 * positionLowAndOutline.w; float totalSize = positionHighAndSize.w + outlineWidthBothSides; float outlinePercent = outlineWidthBothSides / totalSize; // Scale in response to browser-zoom. totalSize *= czm_pixelRatio; // Add padding for anti-aliasing on both sides. totalSize += 3.0; float temp = compressedAttribute1.x * SHIFT_RIGHT8; float show = floor(temp); #ifdef EYE_DISTANCE_TRANSLUCENCY vec4 translucencyByDistance; translucencyByDistance.x = compressedAttribute1.z; translucencyByDistance.z = compressedAttribute1.w; translucencyByDistance.y = ((temp - floor(temp)) * SHIFT_LEFT8) / 255.0; temp = compressedAttribute1.y * SHIFT_RIGHT8; translucencyByDistance.w = ((temp - floor(temp)) * SHIFT_LEFT8) / 255.0; #endif /////////////////////////////////////////////////////////////////////////// vec4 color; vec4 outlineColor; vec4 pickColor; // compressedAttribute0.z => pickColor.rgb temp = compressedAttribute0.z * SHIFT_RIGHT8; pickColor.b = (temp - floor(temp)) * SHIFT_LEFT8; temp = floor(temp) * SHIFT_RIGHT8; pickColor.g = (temp - floor(temp)) * SHIFT_LEFT8; pickColor.r = floor(temp); // compressedAttribute0.x => color.rgb temp = compressedAttribute0.x * SHIFT_RIGHT8; color.b = (temp - floor(temp)) * SHIFT_LEFT8; temp = floor(temp) * SHIFT_RIGHT8; color.g = (temp - floor(temp)) * SHIFT_LEFT8; color.r = floor(temp); // compressedAttribute0.y => outlineColor.rgb temp = compressedAttribute0.y * SHIFT_RIGHT8; outlineColor.b = (temp - floor(temp)) * SHIFT_LEFT8; temp = floor(temp) * SHIFT_RIGHT8; outlineColor.g = (temp - floor(temp)) * SHIFT_LEFT8; outlineColor.r = floor(temp); // compressedAttribute0.w => color.a, outlineColor.a, pickColor.a temp = compressedAttribute0.w * SHIFT_RIGHT8; pickColor.a = (temp - floor(temp)) * SHIFT_LEFT8; pickColor = pickColor / 255.0; temp = floor(temp) * SHIFT_RIGHT8; outlineColor.a = (temp - floor(temp)) * SHIFT_LEFT8; outlineColor /= 255.0; color.a = floor(temp); color /= 255.0; /////////////////////////////////////////////////////////////////////////// vec4 p = czm_translateRelativeToEye(positionHigh, positionLow); vec4 positionEC = czm_modelViewRelativeToEye * p; /////////////////////////////////////////////////////////////////////////// #if defined(EYE_DISTANCE_SCALING) || defined(EYE_DISTANCE_TRANSLUCENCY) || defined(DISTANCE_DISPLAY_CONDITION) || defined(DISABLE_DEPTH_DISTANCE) float lengthSq; if (czm_sceneMode == czm_sceneMode2D) { // 2D camera distance is a special case // treat all billboards as flattened to the z=0.0 plane lengthSq = czm_eyeHeight2D.y; } else { lengthSq = dot(positionEC.xyz, positionEC.xyz); } #endif #ifdef EYE_DISTANCE_SCALING totalSize *= czm_nearFarScalar(scaleByDistance, lengthSq); #endif // Clamp to max point size. totalSize = min(totalSize, u_maxTotalPointSize); // If size is too small, push vertex behind near plane for clipping. // Note that context.minimumAliasedPointSize "will be at most 1.0". if (totalSize < 1.0) { positionEC.xyz = vec3(0.0); totalSize = 1.0; } float translucency = 1.0; #ifdef EYE_DISTANCE_TRANSLUCENCY translucency = czm_nearFarScalar(translucencyByDistance, lengthSq); // push vertex behind near plane for clipping if (translucency < 0.004) { positionEC.xyz = vec3(0.0); } #endif #ifdef DISTANCE_DISPLAY_CONDITION float nearSq = distanceDisplayConditionAndDisableDepth.x; float farSq = distanceDisplayConditionAndDisableDepth.y; if (lengthSq < nearSq || lengthSq > farSq) { // push vertex behind camera to force it to be clipped positionEC.xyz = vec3(0.0, 0.0, 1.0); } #endif gl_Position = czm_projection * positionEC; czm_vertexLogDepth(); #ifdef DISABLE_DEPTH_DISTANCE float disableDepthTestDistance = distanceDisplayConditionAndDisableDepth.z; if (disableDepthTestDistance == 0.0 && czm_minimumDisableDepthTestDistance != 0.0) { disableDepthTestDistance = czm_minimumDisableDepthTestDistance; } if (disableDepthTestDistance != 0.0) { // Don't try to "multiply both sides" by w. Greater/less-than comparisons won't work for negative values of w. float zclip = gl_Position.z / gl_Position.w; bool clipped = (zclip < -1.0 || zclip > 1.0); if (!clipped && (disableDepthTestDistance < 0.0 || (lengthSq > 0.0 && lengthSq < disableDepthTestDistance))) { // Position z on the near plane. gl_Position.z = -gl_Position.w; #ifdef LOG_DEPTH czm_vertexLogDepth(vec4(czm_currentFrustum.x)); #endif } } #endif v_color = color; v_color.a *= translucency * show; v_outlineColor = outlineColor; v_outlineColor.a *= translucency * show; v_innerPercent = 1.0 - outlinePercent; v_pixelDistance = 2.0 / totalSize; gl_PointSize = totalSize * show; gl_Position *= show; v_pickColor = pickColor; }