import Cartesian3 from "../Core/Cartesian3.js";
import Check from "../Core/Check.js";
import Cesium3DTileOptimizationHint from "./Cesium3DTileOptimizationHint.js";
import TileBoundingRegion from "./TileBoundingRegion.js";
import TileOrientedBoundingBox from "./TileOrientedBoundingBox.js";

/**
 * Utility functions for computing optimization hints for a {@link Cesium3DTileset}.
 *
 * @namespace Cesium3DTileOptimizations
 *
 * @private
 */
var Cesium3DTileOptimizations = {};

var scratchAxis = new Cartesian3();

/**
 * Evaluates support for the childrenWithinParent optimization. This is used to more tightly cull tilesets if
 * children bounds are fully contained within the parent. Currently, support for the optimization only works for
 * oriented bounding boxes, so both the child and parent tile must be either a {@link TileOrientedBoundingBox} or
 * {@link TileBoundingRegion}. The purpose of this check is to prevent use of a culling optimization when the child
 * bounds exceed those of the parent. If the child bounds are greater, it is more likely that the optimization will
 * waste CPU cycles. Bounding spheres are not supported for the reason that the child bounds can very often be
 * partially outside of the parent bounds.
 *
 * @param {Cesium3DTile} tile The tile to check.
 * @returns {Boolean} Whether the childrenWithinParent optimization is supported.
 */
Cesium3DTileOptimizations.checkChildrenWithinParent = function (tile) {
  //>>includeStart('debug', pragmas.debug);
  Check.typeOf.object("tile", tile);
  //>>includeEnd('debug');

  var children = tile.children;
  var length = children.length;

  // Check if the parent has an oriented bounding box.
  var boundingVolume = tile.boundingVolume;
  if (
    boundingVolume instanceof TileOrientedBoundingBox ||
    boundingVolume instanceof TileBoundingRegion
  ) {
    var orientedBoundingBox = boundingVolume._orientedBoundingBox;
    tile._optimChildrenWithinParent =
      Cesium3DTileOptimizationHint.USE_OPTIMIZATION;
    for (var i = 0; i < length; ++i) {
      var child = children[i];

      // Check if the child has an oriented bounding box.
      var childBoundingVolume = child.boundingVolume;
      if (
        !(
          childBoundingVolume instanceof TileOrientedBoundingBox ||
          childBoundingVolume instanceof TileBoundingRegion
        )
      ) {
        // Do not support if the parent and child both do not have oriented bounding boxes.
        tile._optimChildrenWithinParent =
          Cesium3DTileOptimizationHint.SKIP_OPTIMIZATION;
        break;
      }

      var childOrientedBoundingBox = childBoundingVolume._orientedBoundingBox;

      // Compute the axis from the parent to the child.
      var axis = Cartesian3.subtract(
        childOrientedBoundingBox.center,
        orientedBoundingBox.center,
        scratchAxis
      );
      var axisLength = Cartesian3.magnitude(axis);
      Cartesian3.divideByScalar(axis, axisLength, axis);

      // Project the bounding box of the parent onto the axis. Because the axis is a ray from the parent
      // to the child, the projection parameterized along the ray will be (+/- proj1).
      var proj1 =
        Math.abs(orientedBoundingBox.halfAxes[0] * axis.x) +
        Math.abs(orientedBoundingBox.halfAxes[1] * axis.y) +
        Math.abs(orientedBoundingBox.halfAxes[2] * axis.z) +
        Math.abs(orientedBoundingBox.halfAxes[3] * axis.x) +
        Math.abs(orientedBoundingBox.halfAxes[4] * axis.y) +
        Math.abs(orientedBoundingBox.halfAxes[5] * axis.z) +
        Math.abs(orientedBoundingBox.halfAxes[6] * axis.x) +
        Math.abs(orientedBoundingBox.halfAxes[7] * axis.y) +
        Math.abs(orientedBoundingBox.halfAxes[8] * axis.z);

      // Project the bounding box of the child onto the axis. Because the axis is a ray from the parent
      // to the child, the projection parameterized along the ray will be (+/- proj2) + axis.length.
      var proj2 =
        Math.abs(childOrientedBoundingBox.halfAxes[0] * axis.x) +
        Math.abs(childOrientedBoundingBox.halfAxes[1] * axis.y) +
        Math.abs(childOrientedBoundingBox.halfAxes[2] * axis.z) +
        Math.abs(childOrientedBoundingBox.halfAxes[3] * axis.x) +
        Math.abs(childOrientedBoundingBox.halfAxes[4] * axis.y) +
        Math.abs(childOrientedBoundingBox.halfAxes[5] * axis.z) +
        Math.abs(childOrientedBoundingBox.halfAxes[6] * axis.x) +
        Math.abs(childOrientedBoundingBox.halfAxes[7] * axis.y) +
        Math.abs(childOrientedBoundingBox.halfAxes[8] * axis.z);

      // If the child extends the parent's bounds, the optimization is not valid and we skip it.
      if (proj1 <= proj2 + axisLength) {
        tile._optimChildrenWithinParent =
          Cesium3DTileOptimizationHint.SKIP_OPTIMIZATION;
        break;
      }
    }
  }

  return (
    tile._optimChildrenWithinParent ===
    Cesium3DTileOptimizationHint.USE_OPTIMIZATION
  );
};
export default Cesium3DTileOptimizations;