使用 3D 資訊方塊轉譯器

擬真成像 3D 圖塊採用 OGC 標準 glTF 格式,因此您可以使用任何支援 OGC 3D 圖塊規格的轉譯器來建立 3D 圖像。舉例來說,Cesium 是用於算繪 3D 視覺化內容的基礎開放原始碼程式庫。

使用 CesiumJS

CesiumJS 是開放原始碼的 JavaScript 程式庫,可用於網頁上的 3D 視覺化。如要進一步瞭解如何使用 CesiumJS,請參閱「學習 CesiumJS」一文。

使用者控制項

CesiumJS 圖塊轉譯器提供一組標準的使用者控制項。

動作 說明
平移檢視 按住滑鼠左鍵並拖曳
縮放檢視畫面 按一下滑鼠右鍵並拖曳,或使用滑鼠滾輪捲動
旋轉檢視畫面 Ctrl + 左鍵/右鍵拖曳,或中鍵拖曳

最佳做法

您可以採取多種做法來縮短 CesiumJS 3D 載入時間。例如:

  • 如要啟用同時要求,請在轉譯 HTML 中加入下列陳述式:

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

    REQUEST_COUNT 越高,資訊方塊的載入速度就越快。不過,如果在 Chrome 瀏覽器中載入 REQUEST_COUNT 大於 10 且已停用快取,可能會遇到已知的 Chrome 問題。在大多數用途中,我們建議將 REQUEST_COUNT 設為 18,以便達到最佳效能。

  • 啟用略過詳細程度層級的功能。詳情請參閱這個 Cesium 問題

請啟用 showCreditsOnScreen: true,確保您正確顯示資料出處。詳情請參閱「政策」。

轉譯指標

如要找出幀率,請查看 requestAnimationFrame 方法每秒被呼叫的次數。

如要瞭解影格延遲的計算方式,請查看 PerformanceDisplay 類別。

CesiumJS 轉譯器範例

只要提供根圖塊集網址,即可使用 CesiumJS 轉譯器搭配 Map Tiles API 的 3D 圖塊。

簡單範例

以下範例會初始化 CesiumJS 算繪器,然後載入根圖塊集。

<!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>

如要瞭解 requestRenderMode,請參閱「啟用要求轉譯模式」。

轉譯後的 HTML 網頁如下所示。

Places API 整合

您可以將 CesiumJS 與 Places API 搭配使用,擷取更多資訊。您可以使用 Autocomplete 小工具飛到 Places 的可視區域。這個範例使用 Places Autocomplete API (如需啟用,請按照這些操作說明),以及 Maps JavaScript API (如需啟用,請按照這些操作說明)。

<!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>

旋轉無人機檢視畫面

您可以控制攝影機,透過圖塊集產生動畫。搭配使用 Places API 和 Elevation API 時,這項動畫會模擬互動式無人機飛越任何興趣點。

這個程式碼範例會讓您飛往在 Autocomplete 小工具中選取的地點。

<!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>

繪製折線和標籤

這個程式碼範例示範如何在地圖中加入折線和標籤。您可以在地圖中加入折線,以顯示行車和步行路線、顯示地產界線,或計算行車和步行時間。您也可以不實際算繪場景,直接取得屬性。

您可以帶領使用者參觀精選社區,或是顯示目前正在銷售的鄰近房產,然後在場景中加入看板等 3D 物件。

您可以匯總行程,列出您查看的房源,並在虛擬物件中顯示這些詳細資料。

<!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>

相機環繞

在 Cesium 中,您可以讓相機繞著 POI 旋轉,避免與建築物發生碰撞。或者,您也可以在攝影機穿越建築物時,將建築物設為透明。

首先,將相機鎖定在某個點,然後建立攝影機軌跡,以便展示素材資源。您可以使用相機的 lookAtTransform 函式搭配事件監聽器,如本程式碼範例所示。

// 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);
});

如要進一步瞭解如何控制攝影機,請參閱「控制攝影機

使用 Unreal 版 Cesium

如要搭配 3D Tiles API 使用 Cesium for Unreal 外掛程式,請按照下列步驟操作。

  1. 安裝 Cesium for Unreal 外掛程式。

  2. 建立新的 Unreal 專案。

  3. 連結至 Google Photorealistic 3D Tiles API。

    1. 從選單中依序選取「Cesium」 >「Cesium」,開啟 Cesium 視窗。

    2. 選取「空白 3D 圖塊」圖塊集

    3. 在「World Outliner」中,選取這個「Cesium3DTileset」,開啟「Details」面板。

    4. 將「來源」從「來自 Cesium Ion」變更為「來自網址」

    5. 將網址設為 Google 3D 圖塊網址。

    https://tile.googleapis.com/v1/3dtiles/root.json?key=YOUR_API_KEY
    
    1. 啟用「在畫面上顯示製作人員名單」,即可正確顯示出處資訊。
  4. 這會載入世界。如要移動至任何 LatLng,請在「Outliner」面板中選取「CesiumGeoreference」項目,然後在「Details」面板中編輯「Origin Latitude/Longitude/Height」

使用 Cesium for Unity

如要搭配 Cesium for Unity 使用逼真的圖塊,請按照下列步驟操作。

  1. 建立新的 Unity 專案。

  2. 在「Package Manager」(套件管理員) 部分新增「Scoped Registry」(範圍限定的註冊表) (透過「Editor」 >「Project Settings」)。

    • 名稱:Cesium

    • 網址:https://unity.pkg.cesium.com

    • 範圍:com.cesium.unity

  3. 安裝 Cesium for Unity 套件。

  4. 連線至 Google Photorealistic 3D Tiles API。

    1. 從選單中依序選取「Cesium」 >「Cesium」,開啟 Cesium 視窗。

    2. 按一下「空白 3D 圖塊」圖塊集合

    3. 在左側面板的「來源」下方,選取「圖塊集來源」選項中的「從網址」 (而非「從 Cesium Ion」)。

    4. 將網址設為 Google 3D 圖塊網址。

    https://tile.googleapis.com/v1/3dtiles/root.json?key=YOUR_API_KEY
    
    1. 啟用「在畫面上顯示製作人員名單」,即可正確顯示出處資訊。
  5. 這會載入世界。如要移動至任何 LatLng,請在「場景階層」中選取「CesiumGeoreference」項目,然後在「檢查器」中編輯「原點緯度/經度/高度」。

使用 deck.gl

deck.gl 是採用 WebGL 技術的開放原始碼 JavaScript 架構,可用於高效能大型資料視覺化。

歸因

請從圖塊 glTF asset 中擷取 copyright 欄位,然後在算繪檢視畫面中顯示,確保您正確顯示資料出處。詳情請參閱「顯示資料出處」。

deck.gl 轉譯器範例

簡單範例

以下範例會初始化 deck.gl 轉譯器,然後以 3D 方式載入地點。請務必將程式碼中的 YOUR_API_KEY 替換為實際的 API 金鑰。

<!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 擬真 3D 圖塊上方顯示 2D 圖層

deck.gl 的 TerrainExtension 會將 2D 資料算繪至 3D 表面。例如,您可以將建築物足跡的 GeoJSON 覆蓋在逼真的 3D 圖塊幾何圖形上。

在下列範例中,我們將建築物圖層與適應真實感 3D 平鋪圖面的多邊形一起顯示。

<!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>