javascript - 如何使用最新的 Mapbox-gl-js 版本避免透明度重叠?
问题描述
我一直在(https://bl.ocks.org/andrewharvey/9490afae78301c047adddfb06523f6f1)上使用构建几何示例的阴影,并且能够将透明层混合成一个统一的alpha值与旧版本的mapbox- gl-js。
但是,当我将 mapbox-gl-js 版本更改为 v0.54.0 或更高版本时,它不再将阴影混合为统一值。我已经尝试过 gl.blendFunc() 和 gl.blendFuncSeparate() 但似乎仍然混合了奇怪的抗锯齿问题或重叠不透明度。
我怎样才能避免这个透明度问题并获得与提供的第一个示例类似的结果。
使用版本 0.53.1 的代码:
<!DOCTYPE html>
<html>
<head>
<title>Mapbox GL JS debug page</title>
<meta charset='utf-8'>
<meta name="viewport" content="width=device-width, initial-scale=1.0, user-scalable=no">
<link href='https://api.tiles.mapbox.com/mapbox-gl-js/v0.53.1/mapbox-gl.css' rel='stylesheet' />
<style>
body { margin: 0; padding: 0; }
html, body, #map { height: 100%; }
#time { position: absolute; width: 90%; top: 10px; left: 10px; }
</style>
</head>
<body>
<div id='map'></div>
<input id='time' type='range' min="0" max="86400" />
<script src='https://api.tiles.mapbox.com/mapbox-gl-js/v0.53.1/mapbox-gl.js'></script>
<script src='https://unpkg.com/suncalc@1.8.0/suncalc.js'></script>
<!-- <script src='/debug/access_token_generated.js'></script> -->
<script>
mapboxgl.accessToken = 'pk.eyJ1IjoiYWxhbnRnZW8tcHJlc2FsZXMiLCJhIjoiY2pzcTA4NjRiMTMxczQzcDFqa29maXk3bSJ9.pVYNTFKfcOXA_U_5TUwDWw';
var map = window.map = new mapboxgl.Map({
container: 'map',
zoom: 15,
center: [-74.0059, 40.7064],
style: 'mapbox://styles/mapbox/streets-v11',
hash: true
});
var date = new Date();
var time = date.getHours() * 60 * 60 + date.getMinutes() * 60 + date.getSeconds();
var timeInput = document.getElementById('time');
timeInput.value = time;
timeInput.oninput = () => {
time = +timeInput.value;
date.setHours(Math.floor(time / 60 / 60));
date.setMinutes(Math.floor(time / 60) % 60);
date.setSeconds(time % 60);
map.triggerRepaint();
};
map.addControl(new mapboxgl.NavigationControl());
class BuildingShadows {
constructor() {
this.id = 'building-shadows';
this.type = 'custom';
this.renderingMode = '3d';
this.opacity = 0.5;
}
onAdd(map, gl) {
this.map = map;
const vertexSource = `
uniform mat4 u_matrix;
uniform float u_height_factor;
uniform float u_altitude;
uniform float u_azimuth;
attribute vec2 a_pos;
attribute vec4 a_normal_ed;
attribute lowp vec2 a_base;
attribute lowp vec2 a_height;
void main() {
float base = max(0.0, a_base.x);
float height = max(0.0, a_height.x);
float t = mod(a_normal_ed.x, 2.0);
vec4 pos = vec4(a_pos, t > 0.0 ? height : base, 1);
float len = pos.z * u_height_factor / tan(u_altitude);
pos.x += cos(u_azimuth) * len;
pos.y += sin(u_azimuth) * len;
pos.z = 0.0;
gl_Position = u_matrix * pos;
}
`;
const fragmentSource = `
void main() {
gl_FragColor = vec4(0.0, 0.0, 0.0, 0.5);
}
`;
const vertexShader = gl.createShader(gl.VERTEX_SHADER);
gl.shaderSource(vertexShader, vertexSource);
gl.compileShader(vertexShader);
const fragmentShader = gl.createShader(gl.FRAGMENT_SHADER);
console.log(gl.FRAGMENT_SHADER)
console.log(fragmentShader)
console.log(fragmentSource)
gl.shaderSource(fragmentShader, fragmentSource);
gl.compileShader(fragmentShader);
this.program = gl.createProgram();
gl.attachShader(this.program, vertexShader);
gl.attachShader(this.program, fragmentShader);
gl.linkProgram(this.program);
gl.validateProgram(this.program);
this.uMatrix = gl.getUniformLocation(this.program, "u_matrix");
this.uHeightFactor = gl.getUniformLocation(this.program, "u_height_factor");
this.uAltitude = gl.getUniformLocation(this.program, "u_altitude");
this.uAzimuth = gl.getUniformLocation(this.program, "u_azimuth");
this.aPos = gl.getAttribLocation(this.program, "a_pos");
this.aNormal = gl.getAttribLocation(this.program, "a_normal_ed");
this.aBase = gl.getAttribLocation(this.program, "a_base");
this.aHeight = gl.getAttribLocation(this.program, "a_height");
}
render(gl, matrix) {
gl.useProgram(this.program);
const source = this.map.style.sourceCaches['composite'];
const coords = source.getVisibleCoordinates().reverse();
const buildingsLayer = map.getLayer('3d-buildings');
const context = this.map.painter.context;
const {lng, lat} = this.map.getCenter();
const pos = SunCalc.getPosition(date, lat, lng);
gl.uniform1f(this.uAltitude, pos.altitude);
gl.uniform1f(this.uAzimuth, pos.azimuth + 3 * Math.PI / 2);
map.setLight({
anchor: 'map',
position: [1.5, 180 + pos.azimuth * 180 / Math.PI, 90 - pos.altitude * 180 / Math.PI],
'position-transition': {duration: 0},
color: '#fdb'
// color: `hsl(20, ${50 * Math.cos(pos.altitude)}%, ${ 200 * Math.sin(pos.altitude) }%)`
}, {duration: 0});
this.opacity = Math.sin(Math.max(pos.altitude, 0)) * 0.9;
// ADDED: normalises the colour of the shadows
gl.blendFunc(gl.SRC_COLOR, gl.CONSTANT_COLOR)
gl.enable(gl.BLEND)
for (const coord of coords) {
const tile = source.getTile(coord);
const bucket = tile.getBucket(buildingsLayer);
if (!bucket) continue;
const [heightBuffer, baseBuffer] = bucket.programConfigurations.programConfigurations['3d-buildings']._buffers;
gl.uniformMatrix4fv(this.uMatrix, false, coord.posMatrix);
gl.uniform1f(this.uHeightFactor, Math.pow(2, coord.overscaledZ) / tile.tileSize / 8);
for (const segment of bucket.segments.get()) {
const numPrevAttrib = context.currentNumAttributes || 0;
const numNextAttrib = 2;
for (let i = numNextAttrib; i < numPrevAttrib; i++) gl.disableVertexAttribArray(i);
const vertexOffset = segment.vertexOffset || 0;
gl.enableVertexAttribArray(this.aPos);
gl.enableVertexAttribArray(this.aNormal);
gl.enableVertexAttribArray(this.aHeight);
gl.enableVertexAttribArray(this.aBase);
bucket.layoutVertexBuffer.bind();
gl.vertexAttribPointer(this.aPos, 2, gl.SHORT, false, 12, 12 * vertexOffset);
gl.vertexAttribPointer(this.aNormal, 4, gl.SHORT, false, 12, 4 + 12 * vertexOffset);
heightBuffer.bind();
gl.vertexAttribPointer(this.aHeight, 1, gl.FLOAT, false, 4, 4 * vertexOffset);
baseBuffer.bind();
gl.vertexAttribPointer(this.aBase, 1, gl.FLOAT, false, 4, 4 * vertexOffset);
bucket.indexBuffer.bind();
context.currentNumAttributes = numNextAttrib;
gl.drawElements(gl.TRIANGLES, segment.primitiveLength * 3, gl.UNSIGNED_SHORT, segment.primitiveOffset * 3 * 2);
}
}
}
}
map.on('load', () => {
map.removeLayer('building');
map.addLayer({
'id': '3d-buildings',
'source': 'composite',
'source-layer': 'building',
'type': 'fill-extrusion',
'minzoom': 14,
'paint': {
'fill-extrusion-color': '#ddd',
'fill-extrusion-height': ["number", ["get", "height"], 5],
'fill-extrusion-base': ["number", ["get", "min_height"], 0],
'fill-extrusion-opacity': 1
}
}, 'road-label');
map.addLayer(new BuildingShadows(), '3d-buildings');
});
</script>
</body>
</html>
使用版本 1.6.1 的代码:
<!DOCTYPE html>
<html>
<head>
<title>Mapbox GL JS debug page</title>
<meta charset='utf-8'>
<meta name="viewport" content="width=device-width, initial-scale=1.0, user-scalable=no">
<link href='https://api.tiles.mapbox.com/mapbox-gl-js/v1.6.1/mapbox-gl.css' rel='stylesheet' />
<style>
body { margin: 0; padding: 0; }
html, body, #map { height: 100%; }
#time { position: absolute; width: 90%; top: 10px; left: 10px; }
</style>
</head>
<body>
<div id='map'></div>
<input id='time' type='range' min="0" max="86400" />
<script src='https://api.tiles.mapbox.com/mapbox-gl-js/v1.6.1/mapbox-gl.js'></script>
<script src='https://unpkg.com/suncalc@1.8.0/suncalc.js'></script>
<!-- <script src='/debug/access_token_generated.js'></script> -->
<script>
mapboxgl.accessToken = 'pk.eyJ1IjoiYWxhbnRnZW8tcHJlc2FsZXMiLCJhIjoiY2pzcTA4NjRiMTMxczQzcDFqa29maXk3bSJ9.pVYNTFKfcOXA_U_5TUwDWw';
var map = window.map = new mapboxgl.Map({
container: 'map',
zoom: 15,
center: [-74.0059, 40.7064],
style: 'mapbox://styles/mapbox/streets-v11',
hash: true
});
var date = new Date();
var time = date.getHours() * 60 * 60 + date.getMinutes() * 60 + date.getSeconds();
var timeInput = document.getElementById('time');
timeInput.value = time;
timeInput.oninput = () => {
time = +timeInput.value;
date.setHours(Math.floor(time / 60 / 60));
date.setMinutes(Math.floor(time / 60) % 60);
date.setSeconds(time % 60);
map.triggerRepaint();
};
map.addControl(new mapboxgl.NavigationControl());
class BuildingShadows {
constructor() {
this.id = 'building-shadows';
this.type = 'custom';
this.renderingMode = '3d';
this.opacity = 0.5;
}
onAdd(map, gl) {
this.map = map;
const vertexSource = `
uniform mat4 u_matrix;
uniform float u_height_factor;
uniform float u_altitude;
uniform float u_azimuth;
attribute vec2 a_pos;
attribute vec4 a_normal_ed;
attribute lowp vec2 a_base;
attribute lowp vec2 a_height;
void main() {
float base = max(0.0, a_base.x);
float height = max(0.0, a_height.x);
float t = mod(a_normal_ed.x, 2.0);
vec4 pos = vec4(a_pos, t > 0.0 ? height : base, 1);
float len = pos.z * u_height_factor / tan(u_altitude);
pos.x += cos(u_azimuth) * len;
pos.y += sin(u_azimuth) * len;
pos.z = 0.0;
gl_Position = u_matrix * pos;
}
`;
const fragmentSource = `
void main() {
gl_FragColor = vec4(5.0, 0.0, 0.0, 0.1);
}
`;
const vertexShader = gl.createShader(gl.VERTEX_SHADER);
gl.shaderSource(vertexShader, vertexSource);
gl.compileShader(vertexShader);
const fragmentShader = gl.createShader(gl.FRAGMENT_SHADER);
gl.shaderSource(fragmentShader, fragmentSource);
gl.compileShader(fragmentShader);
this.program = gl.createProgram();
gl.attachShader(this.program, vertexShader);
gl.attachShader(this.program, fragmentShader);
gl.linkProgram(this.program);
gl.validateProgram(this.program);
this.uMatrix = gl.getUniformLocation(this.program, "u_matrix");
this.uHeightFactor = gl.getUniformLocation(this.program, "u_height_factor");
this.uAltitude = gl.getUniformLocation(this.program, "u_altitude");
this.uAzimuth = gl.getUniformLocation(this.program, "u_azimuth");
this.aPos = gl.getAttribLocation(this.program, "a_pos");
this.aNormal = gl.getAttribLocation(this.program, "a_normal_ed");
this.aBase = gl.getAttribLocation(this.program, "a_base");
this.aHeight = gl.getAttribLocation(this.program, "a_height");
}
render(gl, matrix) {
gl.useProgram(this.program);
const source = this.map.style.sourceCaches['composite'];
const coords = source.getVisibleCoordinates().reverse();
const buildingsLayer = map.getLayer('3d-buildings');
const context = this.map.painter.context;
const {lng, lat} = this.map.getCenter();
const pos = SunCalc.getPosition(date, lat, lng);
gl.uniform1f(this.uAltitude, pos.altitude);
gl.uniform1f(this.uAzimuth, pos.azimuth + 3 * Math.PI / 2);
map.setLight({
anchor: 'map',
position: [1.5, 180 + pos.azimuth * 180 / Math.PI, 90 - pos.altitude * 180 / Math.PI],
'position-transition': {duration: 0},
color: '#fdb'
// color: `hsl(20, ${50 * Math.cos(pos.altitude)}%, ${ 200 * Math.sin(pos.altitude) }%)`
}, {duration: 0});
this.opacity = Math.sin(Math.max(pos.altitude, 0)) * 0.9;
// ADDED: New Attempt to normalise the colour of the shadows
gl.depthMask(false);
gl.enable(gl.BLEND)
gl.blendFuncSeparate(gl.SRC_ALPHA, gl.ONE_MINUS_SRC_ALPHA, gl.ONE, gl.ONE_MINUS_SRC_ALPHA);
for (const coord of coords) {
const tile = source.getTile(coord);
const bucket = tile.getBucket(buildingsLayer);
if (!bucket) continue;
const [heightBuffer, baseBuffer] = bucket.programConfigurations.programConfigurations['3d-buildings']._buffers;
gl.uniformMatrix4fv(this.uMatrix, false, coord.posMatrix);
gl.uniform1f(this.uHeightFactor, Math.pow(2, coord.overscaledZ) / tile.tileSize / 8);
for (const segment of bucket.segments.get()) {
const numPrevAttrib = context.currentNumAttributes || 0;
const numNextAttrib = 2;
for (let i = numNextAttrib; i < numPrevAttrib; i++) gl.disableVertexAttribArray(i);
const vertexOffset = segment.vertexOffset || 0;
gl.enableVertexAttribArray(this.aPos);
gl.enableVertexAttribArray(this.aNormal);
gl.enableVertexAttribArray(this.aHeight);
gl.enableVertexAttribArray(this.aBase);
bucket.layoutVertexBuffer.bind();
gl.vertexAttribPointer(this.aPos, 2, gl.SHORT, false, 12, 12 * vertexOffset);
gl.vertexAttribPointer(this.aNormal, 4, gl.SHORT, false, 12, 4 + 12 * vertexOffset);
heightBuffer.bind();
gl.vertexAttribPointer(this.aHeight, 1, gl.FLOAT, false, 4, 4 * vertexOffset);
baseBuffer.bind();
gl.vertexAttribPointer(this.aBase, 1, gl.FLOAT, false, 4, 4 * vertexOffset);
bucket.indexBuffer.bind();
context.currentNumAttributes = numNextAttrib;
gl.drawElements(gl.TRIANGLES, segment.primitiveLength * 3, gl.UNSIGNED_SHORT, segment.primitiveOffset * 3 * 2);
}
}
}
}
map.on('load', () => {
map.removeLayer('building');
map.addLayer({
'id': '3d-buildings',
'source': 'composite',
'source-layer': 'building',
'type': 'fill-extrusion',
'minzoom': 14,
'paint': {
'fill-extrusion-color': '#ddd',
'fill-extrusion-height': ["number", ["get", "height"], 5],
'fill-extrusion-base': ["number", ["get", "min_height"], 0],
'fill-extrusion-opacity': 1
}
}, 'road-label');
map.addLayer(new BuildingShadows(), '3d-buildings');
});
</script>
</body>
</html>
解决方案
有各种变化,但
将所有阴影绘制到模板缓冲区中,然后绘制一个带有模板测试的四边形,以便它只绘制设置模板的位置?
将所有阴影不透明地绘制到纹理中。将纹理绘制为地图上的四边形。
将所有阴影绘制到深度缓冲区中。使用深度测试集绘制一个四边形,因此它只绘制有阴影的地方。
还
- 使用深度测试或模板测试绘制阴影,这样就不会多次绘制像素。
各种相关示例:
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