@xeokit/xeokit-convert
Version:
JavaScript utilities to create .XKT files
178 lines (147 loc) • 4.63 kB
JavaScript
/**
* @desc Creates plane-shaped geometry arrays.
*
* ## Usage
*
* In the example below we'll create an {@link XKTModel}, then create an {@link XKTMesh} with a plane-shaped {@link XKTGeometry}.
*
* [[Run this example](http://xeokit.github.io/xeokit-sdk/examples/#geometry_builders_buildPlaneGeometry)]
*
* ````javascript
* const xktModel = new XKTModel();
*
* const plane = buildPlaneGeometry({
* center: [0,0,0],
* xSize: 2,
* zSize: 2,
* xSegments: 10,
* zSegments: 10
* });
*
* const xktGeometry = xktModel.createGeometry({
* geometryId: "planeGeometry",
* primitiveType: plane.primitiveType, // Will be "triangles"
* positions: plane.positions,
* normals: plane.normals,
* indices: plane.indices
* });
*
* const xktMesh = xktModel.createMesh({
* meshId: "redPlaneMesh",
* geometryId: "planeGeometry",
* position: [-4, -6, -4],
* scale: [1, 3, 1],
* rotation: [0, 0, 0],
* color: [1, 0, 0],
* opacity: 1
* });
*
* const xktEntity = xktModel.createEntity({
* entityId: "redPlane",
* meshIds: ["redPlaneMesh"]
* });
*
* xktModel.finalize();
* ````
*
* @function buildPlaneGeometry
* @param {*} [cfg] Configs
* @param {Number[]} [cfg.center] 3D point indicating the center position.
* @param {Number} [cfg.xSize=1] Dimension on the X-axis.
* @param {Number} [cfg.zSize=1] Dimension on the Z-axis.
* @param {Number} [cfg.xSegments=1] Number of segments on the X-axis.
* @param {Number} [cfg.zSegments=1] Number of segments on the Z-axis.
* @returns {Object} Geometry arrays for {@link XKTModel#createGeometry} or {@link XKTModel#createMesh}.
*/
function buildPlaneGeometry(cfg = {}) {
let xSize = cfg.xSize || 1;
if (xSize < 0) {
console.error("negative xSize not allowed - will invert");
xSize *= -1;
}
let zSize = cfg.zSize || 1;
if (zSize < 0) {
console.error("negative zSize not allowed - will invert");
zSize *= -1;
}
let xSegments = cfg.xSegments || 1;
if (xSegments < 0) {
console.error("negative xSegments not allowed - will invert");
xSegments *= -1;
}
if (xSegments < 1) {
xSegments = 1;
}
let zSegments = cfg.xSegments || 1;
if (zSegments < 0) {
console.error("negative zSegments not allowed - will invert");
zSegments *= -1;
}
if (zSegments < 1) {
zSegments = 1;
}
const center = cfg.center;
const centerX = center ? center[0] : 0;
const centerY = center ? center[1] : 0;
const centerZ = center ? center[2] : 0;
const halfWidth = xSize / 2;
const halfHeight = zSize / 2;
const planeX = Math.floor(xSegments) || 1;
const planeZ = Math.floor(zSegments) || 1;
const planeX1 = planeX + 1;
const planeZ1 = planeZ + 1;
const segmentWidth = xSize / planeX;
const segmentHeight = zSize / planeZ;
const positions = new Float32Array(planeX1 * planeZ1 * 3);
const normals = new Float32Array(planeX1 * planeZ1 * 3);
const uvs = new Float32Array(planeX1 * planeZ1 * 2);
let offset = 0;
let offset2 = 0;
let iz;
let ix;
let x;
let a;
let b;
let c;
let d;
for (iz = 0; iz < planeZ1; iz++) {
const z = iz * segmentHeight - halfHeight;
for (ix = 0; ix < planeX1; ix++) {
x = ix * segmentWidth - halfWidth;
positions[offset] = x + centerX;
positions[offset + 1] = centerY;
positions[offset + 2] = -z + centerZ;
normals[offset + 2] = -1;
uvs[offset2] = (ix) / planeX;
uvs[offset2 + 1] = ((planeZ - iz) / planeZ);
offset += 3;
offset2 += 2;
}
}
offset = 0;
const indices = new ((positions.length / 3) > 65535 ? Uint32Array : Uint16Array)(planeX * planeZ * 6);
for (iz = 0; iz < planeZ; iz++) {
for (ix = 0; ix < planeX; ix++) {
a = ix + planeX1 * iz;
b = ix + planeX1 * (iz + 1);
c = (ix + 1) + planeX1 * (iz + 1);
d = (ix + 1) + planeX1 * iz;
indices[offset] = d;
indices[offset + 1] = b;
indices[offset + 2] = a;
indices[offset + 3] = d;
indices[offset + 4] = c;
indices[offset + 5] = b;
offset += 6;
}
}
return {
primitiveType: "triangles",
positions: positions,
normals: normals,
uv: uvs,
uvs: uvs,
indices: indices
};
}
export {buildPlaneGeometry};