使用 3D 卡片渲染程序

仿真 3D 图块采用 OGC 标准 glTF 格式,这意味着您可以使用支持 OGC 3D 图块规范的任何渲染程序来构建 3D 可视化内容。例如,Cesium 是一个用于渲染 3D 可视化的基本开源库。

使用 CesiumJS

CesiumJS 是一个用于在 Web 上进行 3D 可视化的开源 JavaScript 库。如需详细了解如何使用 CesiumJS,请参阅了解 CesiumJS

用户控制功能

CesiumJS 图块渲染程序具有一组标准的用户控件。

操作 说明
平移视图 点击左键并拖动
缩放视图 右键点击并拖动,或滚动鼠标滚轮
旋转视图 Ctrl + 左键/右键点击并拖动,或中键点击并拖动

最佳做法

您可以通过多种方法缩短 CesiumJS 3D 加载时间。例如:

  • 将以下语句添加到呈现的 HTML 中,以启用并发请求:

    Cesium.RequestScheduler.requestsByServer["tile.googleapis.com:443"] = <REQUEST_COUNT>
    

    REQUEST_COUNT 越高,功能块的加载速度就越快。不过,如果在 REQUEST_COUNT 大于 10 且缓存已停用的 Chrome 浏览器中加载,您可能会遇到已知的 Chrome 问题。对于大多数使用情形,我们建议将 REQUEST_COUNT 设为 18,以实现最佳性能。

  • 启用跳过详细级别。如需了解详情,请参阅此 Cesium 问题

请启用 showCreditsOnScreen: true,确保正确显示数据归因。如需了解详情,请参阅政策

呈现指标

如需查找帧速率,请查看 requestAnimationFrame 方法每秒被调用的次数。

如需了解帧延迟时间的计算方式,请查看 PerformanceDisplay 类。

CesiumJS 渲染程序示例

只需提供根图块集网址,即可将 CesiumJS 渲染程序与 Map Tiles API 的 3D 图块搭配使用。

简单示例

以下示例会初始化 CesiumJS 渲染程序,然后加载根图块集。

<!DOCTYPE html>
<head>
  <meta charset="utf-8">
  <title>CesiumJS 3D Tiles Simple Demo</title>
  <script src="https://ajax.googleapis.com/ajax/libs/cesiumjs/1.105/Build/Cesium/Cesium.js"></script>
  <link href="https://ajax.googleapis.com/ajax/libs/cesiumjs/1.105/Build/Cesium/Widgets/widgets.css" rel="stylesheet">
</head>
<body>
  <div id="cesiumContainer"></div>
  <script>

    // Enable simultaneous requests.
    Cesium.RequestScheduler.requestsByServer["tile.googleapis.com:443"] = 18;

    // Create the viewer.
    const viewer = new Cesium.Viewer('cesiumContainer', {
      imageryProvider: false,
      baseLayerPicker: false,
      geocoder: false,
      globe: false,
      // https://cesium.com/blog/2018/01/24/cesium-scene-rendering-performance/#enabling-request-render-mode
      requestRenderMode: true,
    });

    // Add 3D Tiles tileset.
    const tileset = viewer.scene.primitives.add(new Cesium.Cesium3DTileset({
      url: "https://tile.googleapis.com/v1/3dtiles/root.json?key=YOUR_API_KEY",
      // This property is needed to appropriately display attributions
      // as required.
      showCreditsOnScreen: true,
    }));
  </script>
</body>

如需了解 requestRenderMode,请参阅启用请求呈现模式

HTML 页面将呈现如下所示。

Places API 集成

您可以将 CesiumJS 与 Places API 搭配使用,以检索更多信息。您可以使用自动补全 widget 快速跳转到“地点”的视口。此示例使用了地点自动补全 API(可通过按照这些说明进行启用)和 Maps JavaScript API(可通过按照这些说明进行启用)。

<!DOCTYPE html>
<head>
 <meta charset="utf-8" />
 <title>CesiumJS 3D Tiles Places API Integration Demo</title>
 <script src="https://ajax.googleapis.com/ajax/libs/cesiumjs/1.105/Build/Cesium/Cesium.js"></script>
 <link href="https://ajax.googleapis.com/ajax/libs/cesiumjs/1.105/Build/Cesium/Widgets/widgets.css" rel="stylesheet">
</head>
<body>
 <label for="pacViewPlace">Go to a place: </label>
 <input
   type="text"
   id="pacViewPlace"
   name="pacViewPlace"
   placeholder="Enter a location..."
   style="width: 300px"
 />
 <div id="cesiumContainer"></div>
 <script>
   // Enable simultaneous requests.
   Cesium.RequestScheduler.requestsByServer["tile.googleapis.com:443"] = 18;

   // Create the viewer.
   const viewer = new Cesium.Viewer("cesiumContainer", {
     imageryProvider: false,
     baseLayerPicker: false,
     requestRenderMode: true,
     geocoder: false,
     globe: false,
   });

   // Add 3D Tiles tileset.
   const tileset = viewer.scene.primitives.add(
     new Cesium.Cesium3DTileset({
       url: "https://tile.googleapis.com/v1/3dtiles/root.json?key=YOUR_API_KEY",
       // This property is required to display attributions as required.
       showCreditsOnScreen: true,
     })
   );

   const zoomToViewport = (viewport) => {
     viewer.entities.add({
       polyline: {
         positions: Cesium.Cartesian3.fromDegreesArray([
           viewport.getNorthEast().lng(), viewport.getNorthEast().lat(),
           viewport.getSouthWest().lng(), viewport.getNorthEast().lat(),
           viewport.getSouthWest().lng(), viewport.getSouthWest().lat(),
           viewport.getNorthEast().lng(), viewport.getSouthWest().lat(),
           viewport.getNorthEast().lng(), viewport.getNorthEast().lat(),
         ]),
         width: 10,
         clampToGround: true,
         material: Cesium.Color.RED,
       },
     });
     viewer.flyTo(viewer.entities);
   };

   function initAutocomplete() {
     const autocomplete = new google.maps.places.Autocomplete(
       document.getElementById("pacViewPlace"),
       {
         fields: [
           "geometry",
           "name",
         ],
       }
     );
     autocomplete.addListener("place_changed", () => {
       viewer.entities.removeAll();
       const place = autocomplete.getPlace();
       if (!place.geometry || !place.geometry.viewport) {
         window.alert("No viewport for input: " + place.name);
         return;
       }
       zoomToViewport(place.geometry.viewport);
     });
   }
 </script>
 <script
   async=""
   src="https://maps.googleapis.com/maps/api/js?key=YOUR_API_KEY&libraries=places&callback=initAutocomplete"
 ></script>
</body>

旋转的无人机视图

您可以控制摄像头,以动画形式浏览图块集。将此动画与 Places API 和 Elevation API 结合使用时,可模拟任何地图注点的交互式无人机航拍。

此代码示例会让您围绕您在 Autocomplete widget 中选择的地点飞行。

<!DOCTYPE html>
<head>
  <meta charset="utf-8" />
  <title>CesiumJS 3D Tiles Rotating Drone View Demo</title>
  <script src="https://ajax.googleapis.com/ajax/libs/cesiumjs/1.105/Build/Cesium/Cesium.js"></script>
  <link href="https://ajax.googleapis.com/ajax/libs/cesiumjs/1.105/Build/Cesium/Widgets/widgets.css" rel="stylesheet">
</head>
<body>
  <label for="pacViewPlace">Go to a place: </label>
  <input type="text" id="pacViewPlace" name="pacViewPlace" placeholder="Enter a location..." style="width: 300px" />
  <div id="cesiumContainer"></div>
  <script>
    // Enable simultaneous requests.
    Cesium.RequestScheduler.requestsByServer["tile.googleapis.com:443"] = 18;

    // Create the viewer and remove unneeded options.
    const viewer = new Cesium.Viewer("cesiumContainer", {
      imageryProvider: false,
      baseLayerPicker: false,
      homeButton: false,
      fullscreenButton: false,
      navigationHelpButton: false,
      vrButton: false,
      sceneModePicker: false,
      geocoder: false,
      globe: false,
      infobox: false,
      selectionIndicator: false,
      timeline: false,
      projectionPicker: false,
      clockViewModel: null,
      animation: false,
      requestRenderMode: true,
    });

    // Add 3D Tile set.
    const tileset = viewer.scene.primitives.add(
      new Cesium.Cesium3DTileset({
        url: "https://tile.googleapis.com/v1/3dtiles/root.json?key=YOUR_API_KEY",
        // This property is required to display attributions.
        showCreditsOnScreen: true,
      })
    );

    // Point the camera at a location and elevation, at a viewport-appropriate distance.
    function pointCameraAt(location, viewport, elevation) {
      const distance = Cesium.Cartesian3.distance(
        Cesium.Cartesian3.fromDegrees(
          viewport.getSouthWest().lng(), viewport.getSouthWest().lat(), elevation),
        Cesium.Cartesian3.fromDegrees(
          viewport.getNorthEast().lng(), viewport.getNorthEast().lat(), elevation)
      ) / 2;
      const target = new Cesium.Cartesian3.fromDegrees(location.lng(), location.lat(), elevation);
      const pitch = -Math.PI / 4;
      const heading = 0;
      viewer.camera.lookAt(target, new Cesium.HeadingPitchRange(heading, pitch, distance));
    }

    // Rotate the camera around a location and elevation, at a viewport-appropriate distance.
    let unsubscribe = null;
    function rotateCameraAround(location, viewport, elevation) {
      if(unsubscribe) unsubscribe();
      pointCameraAt(location, viewport, elevation);
      unsubscribe = viewer.clock.onTick.addEventListener(() => {
        viewer.camera.rotate(Cesium.Cartesian3.UNIT_Z);
      });
    }

    function initAutocomplete() {
      const autocomplete = new google.maps.places.Autocomplete(
        document.getElementById("pacViewPlace"), {
          fields: [
            "geometry",
            "name",
          ],
        }
      );
      
      autocomplete.addListener("place_changed", async () => {
        const place = autocomplete.getPlace();
        
        if (!(place.geometry && place.geometry.viewport && place.geometry.location)) {
          window.alert(`Insufficient geometry data for place: ${place.name}`);
          return;
        }
        // Get place elevation using the ElevationService.
        const elevatorService = new google.maps.ElevationService();
        const elevationResponse =  await elevatorService.getElevationForLocations({
          locations: [place.geometry.location],
        });

        if(!(elevationResponse.results && elevationResponse.results.length)){
          window.alert(`Insufficient elevation data for place: ${place.name}`);
          return;
        }
        const elevation = elevationResponse.results[0].elevation || 10;

        rotateCameraAround(
          place.geometry.location,
          place.geometry.viewport,
          elevation
        );
      });
    }
  </script>
  <script async src="https://maps.googleapis.com/maps/api/js?key=YOUR_API_KEY&libraries=places&callback=initAutocomplete"></script>
</body>

绘制多段线和标签

以下代码示例演示了如何向地图添加多段线和标签。您可以向地图添加多段线,以显示驾车和步行路线,或显示房产边界,或计算驾车和步行时长。您还可以在不实际渲染场景的情况下获取属性。

您可以带领用户游览精选的社区,也可以展示当前正在促销的邻近房源,然后再向场景中添加广告牌等 3D 对象。

您可以总结行程,列出您查看过的房源,并在虚拟对象中显示这些详细信息。

<!DOCTYPE html>
<head>
  <meta charset="utf-8" />
  <title>CesiumJS 3D Tiles Polyline and Label Demo</title>
  <script src="https://ajax.googleapis.com/ajax/libs/cesiumjs/1.105/Build/Cesium/Cesium.js"></script>
  <link 
    href="https://ajax.googleapis.com/ajax/libs/cesiumjs/1.105/Build/Cesium/Widgets/widgets.css"
    rel="stylesheet"
  />
</head>
<body>
  <div id="cesiumContainer"></div>
  <script>
    // Enable simultaneous requests.
    Cesium.RequestScheduler.requestsByServer["tile.googleapis.com:443"] = 18;

    // Create the viewer.
    const viewer = new Cesium.Viewer("cesiumContainer", {
      imageryProvider: false,
      baseLayerPicker: false,
      requestRenderMode: true,
      geocoder: false,
      globe: false,
    });

    // Add 3D Tiles tileset.
    const tileset = viewer.scene.primitives.add(
      new Cesium.Cesium3DTileset({
        url: "https://tile.googleapis.com/v1/3dtiles/root.json?key=YOUR_API_KEY",

        // This property is required to display attributions as required.
        showCreditsOnScreen: true,
      })
    );

    // Draws a circle at the position, and a line from the previous position.
    const drawPointAndLine = (position, prevPosition) => {
      viewer.entities.removeAll();
      if (prevPosition) {
        viewer.entities.add({
          polyline: {
            positions: [prevPosition, position],
            width: 3,
            material: Cesium.Color.WHITE,
            clampToGround: true,
            classificationType: Cesium.ClassificationType.CESIUM_3D_TILE,
          },
        });
      }
      viewer.entities.add({
        position: position,
        ellipsoid: {
          radii: new Cesium.Cartesian3(1, 1, 1),
          material: Cesium.Color.RED,
        },
      });
    };

    // Compute, draw, and display the position's height relative to the previous position.
    var prevPosition;
    const processHeights = (newPosition) => {
      drawPointAndLine(newPosition, prevPosition);

      const newHeight = Cesium.Cartographic.fromCartesian(newPosition).height;
      let labelText = "Current altitude (meters above sea level):\n\t" + newHeight;
      if (prevPosition) {
        const prevHeight =
          Cesium.Cartographic.fromCartesian(prevPosition).height;
        labelText += "\nHeight from previous point (meters):\n\t" + Math.abs(newHeight - prevHeight);
      }
      viewer.entities.add({
        position: newPosition,
        label: {
          text: labelText,
          disableDepthTestDistance: Number.POSITIVE_INFINITY,
          pixelOffset: new Cesium.Cartesian2(0, -10),
          showBackground: true,
          verticalOrigin: Cesium.VerticalOrigin.BOTTOM,
        }
      });

      prevPosition = newPosition;
    };

    const handler = new Cesium.ScreenSpaceEventHandler(viewer.canvas);
    handler.setInputAction(function (event) {
      const earthPosition = viewer.scene.pickPosition(event.position);
      if (Cesium.defined(earthPosition)) {
        processHeights(earthPosition);
      }
    }, Cesium.ScreenSpaceEventType.LEFT_CLICK);
  </script>
</body>

相机轨道

在 Cesium 中,您可以让摄像头围绕地图注点旋转,避免与建筑物相撞。或者,您也可以在相机穿过建筑物时使建筑物透明。

首先,将摄像头锁定到一个点,然后您可以创建摄像头轨道来展示您的素材资源。为此,您可以将相机的 lookAtTransform 函数与事件监听器搭配使用,如此代码示例所示。

// Lock the camera onto a point.
const center = Cesium.Cartesian3.fromRadians(
  2.4213211833389243,
  0.6171926869414084,
  3626.0426275055174
);

const transform = Cesium.Transforms.eastNorthUpToFixedFrame(center);

viewer.scene.camera.lookAtTransform(
  transform,
  new Cesium.HeadingPitchRange(0, -Math.PI / 8, 2900)
);

// Orbit around this point.
viewer.clock.onTick.addEventListener(function (clock) {
  viewer.scene.camera.rotateRight(0.005);
});

如需详细了解如何控制摄像头,请参阅控制摄像头

使用 Cesium for Unreal

如需将 Cesium for Unreal 插件与 3D 图块 API 搭配使用,请按以下步骤操作。

  1. 安装 Cesium for Unreal 插件。

  2. 创建一个新的 Unreal 项目。

  3. 连接到 Google 仿真 3D 图块 API。

    1. 从菜单中依次选择 Cesium > Cesium,打开 Cesium 窗口。

    2. 选择空白 3D 图块图集

    3. 世界轮廓图中,选择此 Cesium3DTileset 以打开详细信息面板。

    4. 来源通过铯离子更改为通过网址

    5. 将网址设置为 Google 3D 图块网址。

    https://tile.googleapis.com/v1/3dtiles/root.json?key=YOUR_API_KEY
    
    1. 启用在屏幕上显示制作人员名单,以正确显示制作人员名单。
  4. 这会加载世界。如需移动到任何经纬度,请在大纲面板中选择 CesiumGeoreference 项,然后在详细信息面板中修改起点经纬度/高度

使用 Cesium for Unity

如需将逼真的图块与适用于 Unity 的 Cesium 搭配使用,请按以下步骤操作。

  1. 创建一个新的 Unity 项目。

  2. 在“Package Manager”(软件包管理器)部分中添加新的 Scoped Registry(通过 Editor > Project Settings)。

    • 名称:Cesium

    • 网址:https://unity.pkg.cesium.com

    • 范围:com.cesium.unity

  3. 安装 Cesium for Unity 软件包。

  4. 连接到 Google 仿真 3D 图块 API。

    1. 从菜单中依次选择 Cesium > Cesium,打开 Cesium 窗口。

    2. 点击空白 3D 图块图集

    3. 在左侧面板的来源下,选择图块集来源选项中的从网址(而不是“从 Cesium Ion”)。

    4. 将网址设置为 Google 3D 图块网址。

    https://tile.googleapis.com/v1/3dtiles/root.json?key=YOUR_API_KEY
    
    1. 启用在屏幕上显示制作人员名单,以正确显示制作人员名单。
  5. 这会加载世界。如需移动到任何 LatLng,请在 Scene Hierarchy 中选择 CesiumGeoreference 项,然后在 Inspector 中修改“Origin Latitude/Longitude/Height”。

使用 deck.gl

deck.gl 由 WebGL 提供支持,是一个用于实现高性能、大规模数据可视化的开源 JavaScript 框架。

归因

请从图块 gltf asset 中提取 copyright 字段,然后在渲染的视图中显示该字段,以确保正确显示数据归因。如需了解详情,请参阅显示数据归因

deck.gl 渲染程序示例

简单示例

以下示例会初始化 deck.gl 渲染程序,然后以 3D 方式加载地点。在代码中,请务必将 YOUR_API_KEY 替换为您的实际 API 密钥。

<!DOCTYPE html>
<html>
 <head>
   <title>deck.gl Photorealistic 3D Tiles example</title>
   <script src="https://unpkg.com/deck.gl@latest/dist.min.js"></script>
   <style>
     body { margin: 0; padding: 0;}
     #map { position: absolute; top: 0;bottom: 0;width: 100%;}
     #credits { position: absolute; bottom: 0; right: 0; padding: 2px; font-size: 15px; color: white;
        text-shadow: -1px 0 black, 0 1px black, 1px 0 black, 0 -1px black;}
   </style>
 </head>

 <body>
   <div id="map"></div>
   <div id="credits"></div>
   <script>
     const GOOGLE_API_KEY = YOUR_API_KEY;
     const TILESET_URL = `https://tile.googleapis.com/v1/3dtiles/root.json`;
     const creditsElement = document.getElementById('credits');
     new deck.DeckGL({
       container: 'map',
       initialViewState: {
         latitude: 50.0890,
         longitude: 14.4196,
         zoom: 16,
         bearing: 90,
         pitch: 60,
         height: 200
       },
       controller: {minZoom: 8},
       layers: [
         new deck.Tile3DLayer({
           id: 'google-3d-tiles',
           data: TILESET_URL,
           loadOptions: {
            fetch: {
              headers: {
                'X-GOOG-API-KEY': GOOGLE_API_KEY
              }
            }
          },
           onTilesetLoad: tileset3d => {
             tileset3d.options.onTraversalComplete = selectedTiles => {
               const credits = new Set();
               selectedTiles.forEach(tile => {
                 const {copyright} = tile.content.gltf.asset;
                 copyright.split(';').forEach(credits.add, credits);
                 creditsElement.innerHTML = [...credits].join('; ');
               });
               return selectedTiles;
             }
           }
         })
       ]
     });
   </script>
 </body>
</html>

在 Google 仿真 3D 图块上直观呈现 2D 图层

deck.gl TerrainExtension 可将原本的 2D 数据渲染到 3D 表面。例如,您可以将建筑物平面图的 GeoJSON 叠加在仿真 3D 图块几何图形上。

在以下示例中,建筑物图层使用适应 Photorealistic 3D 图块 Surface 的多边形进行可视化。

<!DOCTYPE html>
<html>
 <head>
   <title>Google 3D tiles example</title>
   <script src="https://unpkg.com/deck.gl@latest/dist.min.js"></script>
   <style>
     body { margin: 0; padding: 0;}
     #map { position: absolute; top: 0;bottom: 0;width: 100%;}
     #credits { position: absolute; bottom: 0; right: 0; padding: 2px; font-size: 15px; color: white;
        text-shadow: -1px 0 black, 0 1px black, 1px 0 black, 0 -1px black;}
   </style>
 </head>

 <body>
   <div id="map"></div>
   <div id="credits"></div>
   <script>
     const GOOGLE_API_KEY = YOUR_API_KEY;
     const TILESET_URL = `https://tile.googleapis.com/v1/3dtiles/root.json`;
     const BUILDINGS_URL = 'https://raw.githubusercontent.com/visgl/deck.gl-data/master/examples/google-3d-tiles/buildings.geojson'
     const creditsElement = document.getElementById('credits');
     const deckgl = new deck.DeckGL({
       container: 'map',
       initialViewState: {
         latitude: 50.0890,
         longitude: 14.4196,
         zoom: 16,
         bearing: 90,
         pitch: 60,
         height: 200
       },
       controller: true,
       layers: [
         new deck.Tile3DLayer({
           id: 'google-3d-tiles',
           data: TILESET_URL,
           loadOptions: {
            fetch: {
              headers: {
                'X-GOOG-API-KEY': GOOGLE_API_KEY
              }
            }
          },
          onTilesetLoad: tileset3d => {
             tileset3d.options.onTraversalComplete = selectedTiles => {
               const credits = new Set();
               selectedTiles.forEach(tile => {
                 const {copyright} = tile.content.gltf.asset;
                 copyright.split(';').forEach(credits.add, credits);
                 creditsElement.innerHTML = [...credits].join('; ');
               });
               return selectedTiles;
             }
           },
           operation: 'terrain+draw'
         }),
         new deck.GeoJsonLayer({
           id: 'buildings',
           // This dataset is created by CARTO, using other Open Datasets available. More info at: https://3dtiles.carto.com/#about.
           data: 'https://raw.githubusercontent.com/visgl/deck.gl-data/master/examples/google-3d-tiles/buildings.geojson',
           stroked: false,
           filled: true,
           getFillColor: ({properties}) => {
             const {tpp} = properties;
             // quantiles break
             if (tpp < 0.6249)
               return [254, 246, 181]
             else if (tpp < 0.6780)
               return [255, 194, 133]
             else if (tpp < 0.8594)
               return [250, 138, 118]
             return [225, 83, 131]
           },
           opacity: 0.2,
           extensions: [new deck._TerrainExtension()]
         })
       ]
     });
   </script>
 </body>
</html>