ARCore 現已支援電子影像穩定技術 (EIS),這有助於產生流暢的相機預覽畫面。EIS 運用陀螺儀觀察手機動作,並在相機紋理邊界內套用補償色網格,藉此抵禦輕微晃動。只有裝置的直向模式支援 EIS。ARCore 1.39.0 版將支援所有方向。
查詢 EIS 支援並啟用 EIS
如要啟用 EIS,請將工作階段設為使用 ImageStabilizationMode.EIS。如果裝置不支援 EIS 功能,會導致 ARCore 擲回例外狀況。
Java
if (!session.isImageStabilizationModeSupported(Config.ImageStabilizationMode.EIS)) {
return;
}
Config config = session.getConfig();
config.setImageStabilizationMode(Config.ImageStabilizationMode.EIS);
session.configure(config);
Kotlin
if (!session.isImageStabilizationModeSupported(Config.ImageStabilizationMode.EIS)) return
session.configure(
session.config.apply { imageStabilizationMode = Config.ImageStabilizationMode.EIS }
)
轉換座標
開啟 EIS 時,轉譯器必須在算繪相機背景時,使用修改後的裝置座標,並比對結合 EIS 補償的紋理座標。如要取得 EIS 補償座標,請使用 Frame.transformCoordinates3d(),並將 OPENGL_NORMALIZED_DEVICE_COORDINATES 當做輸入內容,使用 EIS_NORMALIZED_DEVICE_COORDINATES 做為輸出內容來取得 3D 裝置座標,並使用 EIS_TEXTURE_NORMALIZED 做為輸出內容來取得 3D 紋理座標。目前,Frame.transformCoordinates3d() 唯一支援的輸入座標類型為 OPENGL_NORMALIZED_DEVICE_COORDINATES。
Java
final FloatBuffer cameraTexCoords =
ByteBuffer.allocateDirect(COORDS_BUFFER_SIZE_3D)
.order(ByteOrder.nativeOrder())
.asFloatBuffer();
final FloatBuffer screenCoords =
ByteBuffer.allocateDirect(COORDS_BUFFER_SIZE_3D)
.order(ByteOrder.nativeOrder())
.asFloatBuffer();
final FloatBuffer NDC_QUAD_COORDS_BUFFER =
ByteBuffer.allocateDirect(COORDS_BUFFER_SIZE_2D)
.order(ByteOrder.nativeOrder())
.asFloatBuffer()
.put(
new float[] {
/*0:*/ -1f, -1f, /*1:*/ +1f, -1f, /*2:*/ -1f, +1f, /*3:*/ +1f, +1f,
});
final VertexBuffer screenCoordsVertexBuffer =
new VertexBuffer(render, /* numberOfEntriesPerVertex= */ 3, null);
final VertexBuffer cameraTexCoordsVertexBuffer =
new VertexBuffer(render, /* numberOfEntriesPerVertex= */ 3, null);
NDC_QUAD_COORDS_BUFFER.rewind();
frame.transformCoordinates3d(
Coordinates2d.OPENGL_NORMALIZED_DEVICE_COORDINATES,
NDC_QUAD_COORDS_BUFFER,
Coordinates3d.EIS_NORMALIZED_DEVICE_COORDINATES,
screenCoords);
screenCoordsVertexBuffer.set(screenCoords);
NDC_QUAD_COORDS_BUFFER.rewind();
frame.transformCoordinates3d(
Coordinates2d.OPENGL_NORMALIZED_DEVICE_COORDINATES,
NDC_QUAD_COORDS_BUFFER,
Coordinates3d.EIS_TEXTURE_NORMALIZED,
cameraTexCoords);
cameraTexCoordsVertexBuffer.set(cameraTexCoords);
Kotlin
val COORDS_BUFFER_SIZE_2D = 2 * 4 * Float.SIZE_BYTES
val COORDS_BUFFER_SIZE_3D = 3 * 4 * Float.SIZE_BYTES
val cameraTexCoords =
ByteBuffer.allocateDirect(COORDS_BUFFER_SIZE_3D)
.order(ByteOrder.nativeOrder())
.asFloatBuffer()
val screenCoords =
ByteBuffer.allocateDirect(COORDS_BUFFER_SIZE_3D)
.order(ByteOrder.nativeOrder())
.asFloatBuffer()
val cameraTexCoordsVertexBuffer = VertexBuffer(render, /* numberOfEntriesPerVertex= */ 3, null)
val screenCoordsVertexBuffer = VertexBuffer(render, /* numberOfEntriesPerVertex= */ 3, null)
val NDC_QUAD_COORDS_BUFFER =
ByteBuffer.allocateDirect(COORDS_BUFFER_SIZE_2D)
.order(ByteOrder.nativeOrder())
.asFloatBuffer()
.apply {
put(
floatArrayOf(
/* 0: */
-1f,
-1f,
/* 1: */
+1f,
-1f,
/* 2: */
-1f,
+1f,
/* 3: */
+1f,
+1f
)
)
}
NDC_QUAD_COORDS_BUFFER.rewind()
frame.transformCoordinates3d(
Coordinates2d.OPENGL_NORMALIZED_DEVICE_COORDINATES,
NDC_QUAD_COORDS_BUFFER,
Coordinates3d.EIS_NORMALIZED_DEVICE_COORDINATES,
screenCoords
)
screenCoordsVertexBuffer.set(screenCoords)
NDC_QUAD_COORDS_BUFFER.rewind()
frame.transformCoordinates3d(
Coordinates2d.OPENGL_NORMALIZED_DEVICE_COORDINATES,
NDC_QUAD_COORDS_BUFFER,
Coordinates3d.EIS_TEXTURE_NORMALIZED,
cameraTexCoords
)
cameraTexCoordsVertexBuffer.set(cameraTexCoords)
EIS 關閉時,輸出 3D 座標會與其 2D 對應項目相等,並將 z 值設定為不會產生任何變更。
修改著色器
系統計算的 3D 座標應傳遞至背景算繪著色器。頂點緩衝區現在是採用 EIS 的 3D:
layout(location = 0) in vec4 a_Position;
layout(location = 1) in vec3 a_CameraTexCoord;
out vec3 v_CameraTexCoord;
void main() {
gl_Position = a_Position;
v_CameraTexCoord = a_CameraTexCoord;
}
此外,片段著色器需要套用透視校正:
precision mediump float;
uniform samplerExternalOES u_CameraColorTexture;
in vec3 v_CameraTexCoord;
layout(location = 0) out vec4 o_FragColor;
void main() {
vec3 tc = (v_CameraTexCoord / v_CameraTexCoord.z);
o_FragColor = texture(u_CameraColorTexture, tc.xy);
}
詳情請參閱 hello_eis_kotlin 範例應用程式。