我们有时候绘制对象时,需要自己灵活控制渲染对象的顶点和颜色(纹理),虽然cesium已经给我们提供了很多现成的基础图元,但还是不够灵活,今天我们就从三维基础绘制原理来学习下在cesium中,如何绘制基本图元:点、线、三角面片以及纹理贴图。如果你熟悉三维渲染底层,那么对点、线、三角面片、纹理这些概念一定非常了解,应为它们是组成三维渲染对象的基础。任何三维对象几何属性都是由复杂的点、线、三角面片这三种基本类型组成,然后加上纹理贴图就有了逼真的外观。那么今天我们就先来了解下如何用primitive接口绘制自定义点。
1 查看官方API
首先我们看primitive的官方api,可以看到primitive两个重要对象:geometry和appearance:
image.png
1.1 查看geometry的官方api:
image.png
这里的PrimitiveType就是指定该几何对象图元类型是那种,一共有以下几种:
image.png
1.2 查看appearance的官方api.
这里我们需要关注图中标出的三个属性:
material:设置材质
vertexShaderSource:设置顶点着色器代码
fragmentShaderSource:设置片源着色器代码。
image.png
2 绘制点
顶点着色器和片源着色器都是使用GLSL语言编写,接触webgl的童鞋对此一定非常了解,我对此还没入门,无法说出个所以然来。
知道绘制primitive的要点后,下面就是具体实现,直接上代码:
var viewer = new Cesium.Viewer('cesiumContainer');
//封装PrimitivePoints
var PrimitivePoints=(
function () {
var vertexShader;
var fragmentShader;
var geometry;
var appearance;
var viewer;
function _(options) {
viewer = options.viewer;
vertexShader = getVS();
fragmentShader = getFS();
if (options.Cartesians && options.Cartesians.length >= 2) {
var postionsTemp = [];
var colorsTemp = [];
var indicesTesm = [];
if (options.Colors && options.Colors.length === options.Cartesians.length * 4) {
for (var i = 0; i < options.Cartesians.length; i++) {
postionsTemp.push(options.Cartesians[i].x);
postionsTemp.push(options.Cartesians[i].y);
postionsTemp.push(options.Cartesians[i].z);
}
colorsTemp = options.Colors;
} else {
for (var i = 0; i < options.Cartesians.length; i++) {
postionsTemp.push(options.Cartesians[i].x);
postionsTemp.push(options.Cartesians[i].y);
postionsTemp.push(options.Cartesians[i].z);
//
colorsTemp.push(0.0);
colorsTemp.push(0.0);
colorsTemp.push(1.0);
colorsTemp.push(1.0);
}
}
//顶点索引(坐标点下标的连接顺序)
for (var i = 0; i < options.Cartesians.length; i++) {
indicesTesm.push(i);
}
this.positionArr = new Float64Array(postionsTemp);
this.colorArr = new Float32Array(colorsTemp);
this.indiceArr = new Uint16Array(indicesTesm);
} else {
var p1 = Cesium.Cartesian3.fromDegrees(0, 0, -10);
var p2 = Cesium.Cartesian3.fromDegrees(0, 0.001, -10);
this.positionArr = new Float64Array([
p1.x, p1.y, p1.z,
p2.x, p2.y, p2.z
]);
this.colorArr = new Float32Array([
0.0, 0.0, 1.0, 1.0,
0.0, 0.0, 1.0, 1.0
]);
this.indiceArr = new Uint16Array([0, 1]);
}
geometry = CreateGeometry(this.positionArr, this.colorArr, this.indiceArr);
appearance = CreateAppearence(fragmentShader, vertexShader);
this.primitive = viewer.scene.primitives.add(new Cesium.Primitive({
geometryInstances: new Cesium.GeometryInstance({
geometry: geometry
}),
appearance: appearance,
asynchronous: false
}));
}
function CreateGeometry(positions, colors, indices) {
return new Cesium.Geometry({
attributes: {
position: new Cesium.GeometryAttribute({
componentDatatype: Cesium.ComponentDatatype.DOUBLE,
componentsPerAttribute: 3,
values: positions
}),
color: new Cesium.GeometryAttribute({
componentDatatype: Cesium.ComponentDatatype.FLOAT,
componentsPerAttribute: 4,
values: colors
})
},
indices: indices,
primitiveType: Cesium.PrimitiveType.POINTS,
boundingSphere: Cesium.BoundingSphere.fromVertices(positions)
});
}
function CreateAppearence(fs, vs) {
return new Cesium.Appearance({
renderState: {
blending: Cesium.BlendingState.PRE_MULTIPLIED_ALPHA_BLEND,
depthTest: { enabled: true },
depthMask: true
},
fragmentShaderSource: fs,
vertexShaderSource: vs
});
}
function getVS() {
return "attribute vec3 position3DHigh;\
attribute vec3 position3DLow;\
attribute vec4 color;\
varying vec4 v_color;\
attribute float batchId;\
void main()\
{\
vec4 p = czm_computePosition();\
v_color =color;\
p = czm_modelViewProjectionRelativeToEye * p;\
gl_Position = p;\
gl_PointSize=8.0;\
}\
";
}
function getFS() {
return "varying vec4 v_color;\
void main()\
{\
float d = distance(gl_PointCoord, vec2(0.5,0.5));\
if(d < 0.5){\
gl_FragColor = v_color;\
}else{\
discard;\
}\
}\
";
}
_.prototype.remove = function () {
if (this.primitive != null) {
viewer.scene.primitives.remove(this.primitive);
this.primitive = null;
}
}
_.prototype.updateCartesianPosition = function (cartesians) {
if (this.primitive != null) {
viewer.scene.primitives.remove(this.primitive);
if (cartesians && cartesians.length < 2) { return; }
var postionsTemp = [];
var colorsTemp = [];
var indicesTesm = [];
for (var i = 0; i < cartesians.length; i++) {
postionsTemp.push(cartesians[i].x);
postionsTemp.push(cartesians[i].y);
postionsTemp.push(cartesians[i].z);
colorsTemp.push(0.0);
colorsTemp.push(0.0);
colorsTemp.push(1.0);
colorsTemp.push(1.0);
}
for (var i = 0; i < cartesians.length; i++) {
indicesTesm.push(i);
}
this.positionArr = new Float64Array(postionsTemp);
this.colorArr = new Float32Array(colorsTemp);
this.indiceArr = new Uint16Array(indicesTesm);
geometry = CreateGeometry(this.positionArr, this.colorArr, this.indiceArr);
appearance = CreateAppearence(fragmentShader, vertexShader);
this.primitive = viewer.scene.primitives.add(new Cesium.Primitive({
geometryInstances: new Cesium.GeometryInstance({
geometry: geometry
}),
appearance: appearance,
asynchronous: false
}));
} else { return;}
}
_.prototype.updateCartesianPositionColor = function (cartesians, colors) {
if (colors.length === cartesians.length * 4) { } else { return; }
if (this.primitive != null) {
viewer.scene.primitives.remove(this.primitive);
if (cartesians && cartesians.length < 2) { return; }
var postionsTemp = [];
var indicesTesm = [];
for (var i = 0; i < cartesians.length; i++) {
postionsTemp.push(cartesians[i].x);
postionsTemp.push(cartesians[i].y);
postionsTemp.push(cartesians[i].z);
}
for (var i = 0; i < cartesians.length; i++) {
indicesTesm.push(i);
}
this.positionArr = new Float64Array(postionsTemp);
this.colorArr = new Float32Array(colors);
this.indiceArr = new Uint16Array(indicesTesm);
geometry = CreateGeometry(this.positionArr, this.colorArr, this.indiceArr);
appearance = CreateAppearence(fragmentShader, vertexShader);
this.primitive = viewer.scene.primitives.add(new Cesium.Primitive({
geometryInstances: new Cesium.GeometryInstance({
geometry: geometry
}),
appearance: appearance,
asynchronous: false
}));
} else { return; }
}
return _;
})();
//定义要显示的点坐标(经纬度)
var positions = new Float64Array([
110.2, 20.6,
110.2, 21.9,
111, 23
]);
var cartesian3Positions = Cesium.Cartesian3.fromDegreesArray(positions);
//定义要显示的点的颜色(4个元素定义一个点的颜色(红绿蓝透明度))
var Colors = new Float64Array([
1.0,0.0,0.0,1.0,
0.0,1.0,0.0,1.0,
0.0,0.0,1.0,1.0
]);
var p = new PrimitivePoints({
viewer:viewer,
Cartesians:cartesian3Positions,
Colors:Colors
});
image.png
