/* * Copyright (C) 2010 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package android.graphics; public class ImageFormat { /* * these constants are chosen to be binary compatible with their previous * location in PixelFormat.java */ public static final int UNKNOWN = 0; /** * RGB format used for pictures encoded as RGB_565. See * {@link android.hardware.Camera.Parameters#setPictureFormat(int)}. */ public static final int RGB_565 = 4; /** * <p>Android YUV format.</p> * * <p>This format is exposed to software decoders and applications.</p> * * <p>YV12 is a 4:2:0 YCrCb planar format comprised of a WxH Y plane followed * by (W/2) x (H/2) Cr and Cb planes.</p> * * <p>This format assumes * <ul> * <li>an even width</li> * <li>an even height</li> * <li>a horizontal stride multiple of 16 pixels</li> * <li>a vertical stride equal to the height</li> * </ul> * </p> * * <pre> y_size = stride * height * c_stride = ALIGN(stride/2, 16) * c_size = c_stride * height/2 * size = y_size + c_size * 2 * cr_offset = y_size * cb_offset = y_size + c_size</pre> * * <p>For the {@link android.hardware.camera2} API, the {@link #YUV_420_888} format is * recommended for YUV output instead.</p> * * <p>For the older camera API, this format is guaranteed to be supported for * {@link android.hardware.Camera} preview images since API level 12; for earlier API versions, * check {@link android.hardware.Camera.Parameters#getSupportedPreviewFormats()}. * * <p>Note that for camera preview callback use (see * {@link android.hardware.Camera#setPreviewCallback}), the * <var>stride</var> value is the smallest possible; that is, it is equal * to: * * <pre>stride = ALIGN(width, 16)</pre> * * @see android.hardware.Camera.Parameters#setPreviewCallback * @see android.hardware.Camera.Parameters#setPreviewFormat * @see android.hardware.Camera.Parameters#getSupportedPreviewFormats * </p> */ public static final int YV12 = 0x32315659; /** * <p>Android Y8 format.</p> * * <p>Y8 is a YUV planar format comprised of a WxH Y plane only, with each pixel * being represented by 8 bits. It is equivalent to just the Y plane from {@link #YV12} * format.</p> * * <p>This format assumes * <ul> * <li>an even width</li> * <li>an even height</li> * <li>a horizontal stride multiple of 16 pixels</li> * </ul> * </p> * * <pre> y_size = stride * height </pre> * * <p>For example, the {@link android.media.Image} object can provide data * in this format from a {@link android.hardware.camera2.CameraDevice} * through a {@link android.media.ImageReader} object if this format is * supported by {@link android.hardware.camera2.CameraDevice}.</p> * * @see android.media.Image * @see android.media.ImageReader * @see android.hardware.camera2.CameraDevice * * @hide */ public static final int Y8 = 0x20203859; /** * <p>Android Y16 format.</p> * * Y16 is a YUV planar format comprised of a WxH Y plane, with each pixel * being represented by 16 bits. It is just like {@link #Y8}, but has 16 * bits per pixel (little endian).</p> * * <p>This format assumes * <ul> * <li>an even width</li> * <li>an even height</li> * <li>a horizontal stride multiple of 16 pixels</li> * </ul> * </p> * * <pre> y_size = stride * height </pre> * * <p>For example, the {@link android.media.Image} object can provide data * in this format from a {@link android.hardware.camera2.CameraDevice} * through a {@link android.media.ImageReader} object if this format is * supported by {@link android.hardware.camera2.CameraDevice}.</p> * * @see android.media.Image * @see android.media.ImageReader * @see android.hardware.camera2.CameraDevice * * @hide */ public static final int Y16 = 0x20363159; /** * YCbCr format, used for video. * * <p>For the {@link android.hardware.camera2} API, the {@link #YUV_420_888} format is * recommended for YUV output instead.</p> * * <p>Whether this format is supported by the old camera API can be determined by * {@link android.hardware.Camera.Parameters#getSupportedPreviewFormats()}.</p> * */ public static final int NV16 = 0x10; /** * YCrCb format used for images, which uses the NV21 encoding format. * * <p>This is the default format * for {@link android.hardware.Camera} preview images, when not otherwise set with * {@link android.hardware.Camera.Parameters#setPreviewFormat(int)}.</p> * * <p>For the {@link android.hardware.camera2} API, the {@link #YUV_420_888} format is * recommended for YUV output instead.</p> */ public static final int NV21 = 0x11; /** * YCbCr format used for images, which uses YUYV (YUY2) encoding format. * * <p>For the {@link android.hardware.camera2} API, the {@link #YUV_420_888} format is * recommended for YUV output instead.</p> * * <p>This is an alternative format for {@link android.hardware.Camera} preview images. Whether * this format is supported by the camera hardware can be determined by * {@link android.hardware.Camera.Parameters#getSupportedPreviewFormats()}.</p> */ public static final int YUY2 = 0x14; /** * Compressed JPEG format. * * <p>This format is always supported as an output format for the * {@link android.hardware.camera2} API, and as a picture format for the older * {@link android.hardware.Camera} API</p> */ public static final int JPEG = 0x100; /** * <p>Multi-plane Android YUV 420 format</p> * * <p>This format is a generic YCbCr format, capable of describing any 4:2:0 * chroma-subsampled planar or semiplanar buffer (but not fully interleaved), * with 8 bits per color sample.</p> * * <p>Images in this format are always represented by three separate buffers * of data, one for each color plane. Additional information always * accompanies the buffers, describing the row stride and the pixel stride * for each plane.</p> * * <p>The order of planes in the array returned by * {@link android.media.Image#getPlanes() Image#getPlanes()} is guaranteed such that * plane #0 is always Y, plane #1 is always U (Cb), and plane #2 is always V (Cr).</p> * * <p>The Y-plane is guaranteed not to be interleaved with the U/V planes * (in particular, pixel stride is always 1 in * {@link android.media.Image.Plane#getPixelStride() yPlane.getPixelStride()}).</p> * * <p>The U/V planes are guaranteed to have the same row stride and pixel stride * (in particular, * {@link android.media.Image.Plane#getRowStride() uPlane.getRowStride()} * == {@link android.media.Image.Plane#getRowStride() vPlane.getRowStride()} and * {@link android.media.Image.Plane#getPixelStride() uPlane.getPixelStride()} * == {@link android.media.Image.Plane#getPixelStride() vPlane.getPixelStride()}; * ).</p> * * <p>For example, the {@link android.media.Image} object can provide data * in this format from a {@link android.hardware.camera2.CameraDevice} * through a {@link android.media.ImageReader} object.</p> * * @see android.media.Image * @see android.media.ImageReader * @see android.hardware.camera2.CameraDevice */ public static final int YUV_420_888 = 0x23; /** * <p>Multi-plane Android YUV 422 format</p> * * <p>This format is a generic YCbCr format, capable of describing any 4:2:2 * chroma-subsampled (planar, semiplanar or interleaved) format, * with 8 bits per color sample.</p> * * <p>Images in this format are always represented by three separate buffers * of data, one for each color plane. Additional information always * accompanies the buffers, describing the row stride and the pixel stride * for each plane.</p> * * <p>The order of planes in the array returned by * {@link android.media.Image#getPlanes() Image#getPlanes()} is guaranteed such that * plane #0 is always Y, plane #1 is always U (Cb), and plane #2 is always V (Cr).</p> * * <p>In contrast to the {@link #YUV_420_888} format, the Y-plane may have a pixel * stride greater than 1 in * {@link android.media.Image.Plane#getPixelStride() yPlane.getPixelStride()}.</p> * * <p>The U/V planes are guaranteed to have the same row stride and pixel stride * (in particular, * {@link android.media.Image.Plane#getRowStride() uPlane.getRowStride()} * == {@link android.media.Image.Plane#getRowStride() vPlane.getRowStride()} and * {@link android.media.Image.Plane#getPixelStride() uPlane.getPixelStride()} * == {@link android.media.Image.Plane#getPixelStride() vPlane.getPixelStride()}; * ).</p> * * <p>For example, the {@link android.media.Image} object can provide data * in this format from a {@link android.media.MediaCodec} * through {@link android.media.MediaCodec#getOutputImage} object.</p> * * @see android.media.Image * @see android.media.MediaCodec */ public static final int YUV_422_888 = 0x27; /** * <p>Multi-plane Android YUV 444 format</p> * * <p>This format is a generic YCbCr format, capable of describing any 4:4:4 * (planar, semiplanar or interleaved) format, * with 8 bits per color sample.</p> * * <p>Images in this format are always represented by three separate buffers * of data, one for each color plane. Additional information always * accompanies the buffers, describing the row stride and the pixel stride * for each plane.</p> * * <p>The order of planes in the array returned by * {@link android.media.Image#getPlanes() Image#getPlanes()} is guaranteed such that * plane #0 is always Y, plane #1 is always U (Cb), and plane #2 is always V (Cr).</p> * * <p>In contrast to the {@link #YUV_420_888} format, the Y-plane may have a pixel * stride greater than 1 in * {@link android.media.Image.Plane#getPixelStride() yPlane.getPixelStride()}.</p> * * <p>The U/V planes are guaranteed to have the same row stride and pixel stride * (in particular, * {@link android.media.Image.Plane#getRowStride() uPlane.getRowStride()} * == {@link android.media.Image.Plane#getRowStride() vPlane.getRowStride()} and * {@link android.media.Image.Plane#getPixelStride() uPlane.getPixelStride()} * == {@link android.media.Image.Plane#getPixelStride() vPlane.getPixelStride()}; * ).</p> * * <p>For example, the {@link android.media.Image} object can provide data * in this format from a {@link android.media.MediaCodec} * through {@link android.media.MediaCodec#getOutputImage} object.</p> * * @see android.media.Image * @see android.media.MediaCodec */ public static final int YUV_444_888 = 0x28; /** * <p>Multi-plane Android RGB format</p> * * <p>This format is a generic RGB format, capable of describing most RGB formats, * with 8 bits per color sample.</p> * * <p>Images in this format are always represented by three separate buffers * of data, one for each color plane. Additional information always * accompanies the buffers, describing the row stride and the pixel stride * for each plane.</p> * * <p>The order of planes in the array returned by * {@link android.media.Image#getPlanes() Image#getPlanes()} is guaranteed such that * plane #0 is always R (red), plane #1 is always G (green), and plane #2 is always B * (blue).</p> * * <p>All three planes are guaranteed to have the same row strides and pixel strides.</p> * * <p>For example, the {@link android.media.Image} object can provide data * in this format from a {@link android.media.MediaCodec} * through {@link android.media.MediaCodec#getOutputImage} object.</p> * * @see android.media.Image * @see android.media.MediaCodec */ public static final int FLEX_RGB_888 = 0x29; /** * <p>Multi-plane Android RGBA format</p> * * <p>This format is a generic RGBA format, capable of describing most RGBA formats, * with 8 bits per color sample.</p> * * <p>Images in this format are always represented by four separate buffers * of data, one for each color plane. Additional information always * accompanies the buffers, describing the row stride and the pixel stride * for each plane.</p> * * <p>The order of planes in the array returned by * {@link android.media.Image#getPlanes() Image#getPlanes()} is guaranteed such that * plane #0 is always R (red), plane #1 is always G (green), plane #2 is always B (blue), * and plane #3 is always A (alpha). This format may represent pre-multiplied or * non-premultiplied alpha.</p> * * <p>All four planes are guaranteed to have the same row strides and pixel strides.</p> * * <p>For example, the {@link android.media.Image} object can provide data * in this format from a {@link android.media.MediaCodec} * through {@link android.media.MediaCodec#getOutputImage} object.</p> * * @see android.media.Image * @see android.media.MediaCodec */ public static final int FLEX_RGBA_8888 = 0x2A; /** * <p>General raw camera sensor image format, usually representing a * single-channel Bayer-mosaic image. Each pixel color sample is stored with * 16 bits of precision.</p> * * <p>The layout of the color mosaic, the maximum and minimum encoding * values of the raw pixel data, the color space of the image, and all other * needed information to interpret a raw sensor image must be queried from * the {@link android.hardware.camera2.CameraDevice} which produced the * image.</p> */ public static final int RAW_SENSOR = 0x20; /** * <p> * Android 10-bit raw format * </p> * <p> * This is a single-plane, 10-bit per pixel, densely packed (in each row), * unprocessed format, usually representing raw Bayer-pattern images coming * from an image sensor. * </p> * <p> * In an image buffer with this format, starting from the first pixel of * each row, each 4 consecutive pixels are packed into 5 bytes (40 bits). * Each one of the first 4 bytes contains the top 8 bits of each pixel, The * fifth byte contains the 2 least significant bits of the 4 pixels, the * exact layout data for each 4 consecutive pixels is illustrated below * ({@code Pi[j]} stands for the jth bit of the ith pixel): * </p> * <table> * <thead> * <tr> * <th align="center"></th> * <th align="center">bit 7</th> * <th align="center">bit 6</th> * <th align="center">bit 5</th> * <th align="center">bit 4</th> * <th align="center">bit 3</th> * <th align="center">bit 2</th> * <th align="center">bit 1</th> * <th align="center">bit 0</th> * </tr> * </thead> <tbody> * <tr> * <td align="center">Byte 0:</td> * <td align="center">P0[9]</td> * <td align="center">P0[8]</td> * <td align="center">P0[7]</td> * <td align="center">P0[6]</td> * <td align="center">P0[5]</td> * <td align="center">P0[4]</td> * <td align="center">P0[3]</td> * <td align="center">P0[2]</td> * </tr> * <tr> * <td align="center">Byte 1:</td> * <td align="center">P1[9]</td> * <td align="center">P1[8]</td> * <td align="center">P1[7]</td> * <td align="center">P1[6]</td> * <td align="center">P1[5]</td> * <td align="center">P1[4]</td> * <td align="center">P1[3]</td> * <td align="center">P1[2]</td> * </tr> * <tr> * <td align="center">Byte 2:</td> * <td align="center">P2[9]</td> * <td align="center">P2[8]</td> * <td align="center">P2[7]</td> * <td align="center">P2[6]</td> * <td align="center">P2[5]</td> * <td align="center">P2[4]</td> * <td align="center">P2[3]</td> * <td align="center">P2[2]</td> * </tr> * <tr> * <td align="center">Byte 3:</td> * <td align="center">P3[9]</td> * <td align="center">P3[8]</td> * <td align="center">P3[7]</td> * <td align="center">P3[6]</td> * <td align="center">P3[5]</td> * <td align="center">P3[4]</td> * <td align="center">P3[3]</td> * <td align="center">P3[2]</td> * </tr> * <tr> * <td align="center">Byte 4:</td> * <td align="center">P3[1]</td> * <td align="center">P3[0]</td> * <td align="center">P2[1]</td> * <td align="center">P2[0]</td> * <td align="center">P1[1]</td> * <td align="center">P1[0]</td> * <td align="center">P0[1]</td> * <td align="center">P0[0]</td> * </tr> * </tbody> * </table> * <p> * This format assumes * <ul> * <li>a width multiple of 4 pixels</li> * <li>an even height</li> * </ul> * </p> * * <pre>size = row stride * height</pre> where the row stride is in <em>bytes</em>, * not pixels. * * <p> * Since this is a densely packed format, the pixel stride is always 0. The * application must use the pixel data layout defined in above table to * access each row data. When row stride is equal to {@code width * (10 / 8)}, there * will be no padding bytes at the end of each row, the entire image data is * densely packed. When stride is larger than {@code width * (10 / 8)}, padding * bytes will be present at the end of each row. * </p> * <p> * For example, the {@link android.media.Image} object can provide data in * this format from a {@link android.hardware.camera2.CameraDevice} (if * supported) through a {@link android.media.ImageReader} object. The * {@link android.media.Image#getPlanes() Image#getPlanes()} will return a * single plane containing the pixel data. The pixel stride is always 0 in * {@link android.media.Image.Plane#getPixelStride()}, and the * {@link android.media.Image.Plane#getRowStride()} describes the vertical * neighboring pixel distance (in bytes) between adjacent rows. * </p> * * @see android.media.Image * @see android.media.ImageReader * @see android.hardware.camera2.CameraDevice */ public static final int RAW10 = 0x25; /** * <p> * Android 12-bit raw format * </p> * <p> * This is a single-plane, 12-bit per pixel, densely packed (in each row), * unprocessed format, usually representing raw Bayer-pattern images coming * from an image sensor. * </p> * <p> * In an image buffer with this format, starting from the first pixel of each * row, each two consecutive pixels are packed into 3 bytes (24 bits). The first * and second byte contains the top 8 bits of first and second pixel. The third * byte contains the 4 least significant bits of the two pixels, the exact layout * data for each two consecutive pixels is illustrated below (Pi[j] stands for * the jth bit of the ith pixel): * </p> * <table> * <thead> * <tr> * <th align="center"></th> * <th align="center">bit 7</th> * <th align="center">bit 6</th> * <th align="center">bit 5</th> * <th align="center">bit 4</th> * <th align="center">bit 3</th> * <th align="center">bit 2</th> * <th align="center">bit 1</th> * <th align="center">bit 0</th> * </tr> * </thead> <tbody> * <tr> * <td align="center">Byte 0:</td> * <td align="center">P0[11]</td> * <td align="center">P0[10]</td> * <td align="center">P0[ 9]</td> * <td align="center">P0[ 8]</td> * <td align="center">P0[ 7]</td> * <td align="center">P0[ 6]</td> * <td align="center">P0[ 5]</td> * <td align="center">P0[ 4]</td> * </tr> * <tr> * <td align="center">Byte 1:</td> * <td align="center">P1[11]</td> * <td align="center">P1[10]</td> * <td align="center">P1[ 9]</td> * <td align="center">P1[ 8]</td> * <td align="center">P1[ 7]</td> * <td align="center">P1[ 6]</td> * <td align="center">P1[ 5]</td> * <td align="center">P1[ 4]</td> * </tr> * <tr> * <td align="center">Byte 2:</td> * <td align="center">P1[ 3]</td> * <td align="center">P1[ 2]</td> * <td align="center">P1[ 1]</td> * <td align="center">P1[ 0]</td> * <td align="center">P0[ 3]</td> * <td align="center">P0[ 2]</td> * <td align="center">P0[ 1]</td> * <td align="center">P0[ 0]</td> * </tr> * </tbody> * </table> * <p> * This format assumes * <ul> * <li>a width multiple of 4 pixels</li> * <li>an even height</li> * </ul> * </p> * * <pre>size = row stride * height</pre> where the row stride is in <em>bytes</em>, * not pixels. * * <p> * Since this is a densely packed format, the pixel stride is always 0. The * application must use the pixel data layout defined in above table to * access each row data. When row stride is equal to {@code width * (12 / 8)}, there * will be no padding bytes at the end of each row, the entire image data is * densely packed. When stride is larger than {@code width * (12 / 8)}, padding * bytes will be present at the end of each row. * </p> * <p> * For example, the {@link android.media.Image} object can provide data in * this format from a {@link android.hardware.camera2.CameraDevice} (if * supported) through a {@link android.media.ImageReader} object. The * {@link android.media.Image#getPlanes() Image#getPlanes()} will return a * single plane containing the pixel data. The pixel stride is always 0 in * {@link android.media.Image.Plane#getPixelStride()}, and the * {@link android.media.Image.Plane#getRowStride()} describes the vertical * neighboring pixel distance (in bytes) between adjacent rows. * </p> * * @see android.media.Image * @see android.media.ImageReader * @see android.hardware.camera2.CameraDevice */ public static final int RAW12 = 0x26; /** * <p>Android dense depth image format.</p> * * <p>Each pixel is 16 bits, representing a depth ranging measurement from a depth camera or * similar sensor. The 16-bit sample consists of a confidence value and the actual ranging * measurement.</p> * * <p>The confidence value is an estimate of correctness for this sample. It is encoded in the * 3 most significant bits of the sample, with a value of 0 representing 100% confidence, a * value of 1 representing 0% confidence, a value of 2 representing 1/7, a value of 3 * representing 2/7, and so on.</p> * * <p>As an example, the following sample extracts the range and confidence from the first pixel * of a DEPTH16-format {@link android.media.Image}, and converts the confidence to a * floating-point value between 0 and 1.f inclusive, with 1.f representing maximum confidence: * * <pre> * ShortBuffer shortDepthBuffer = img.getPlanes()[0].getBuffer().asShortBuffer(); * short depthSample = shortDepthBuffer.get() * short depthRange = (short) (depthSample & 0x1FFF); * short depthConfidence = (short) ((depthSample >> 13) & 0x7); * float depthPercentage = depthConfidence == 0 ? 1.f : (depthConfidence - 1) / 7.f; * </pre> * </p> * * <p>This format assumes * <ul> * <li>an even width</li> * <li>an even height</li> * <li>a horizontal stride multiple of 16 pixels</li> * </ul> * </p> * * <pre> y_size = stride * height </pre> * * When produced by a camera, the units for the range are millimeters. */ public static final int DEPTH16 = 0x44363159; /** * Android sparse depth point cloud format. * * <p>A variable-length list of 3D points plus a confidence value, with each point represented * by four floats; first the X, Y, Z position coordinates, and then the confidence value.</p> * * <p>The number of points is {@code (size of the buffer in bytes) / 16}. * * <p>The coordinate system and units of the position values depend on the source of the point * cloud data. The confidence value is between 0.f and 1.f, inclusive, with 0 representing 0% * confidence and 1.f representing 100% confidence in the measured position values.</p> * * <p>As an example, the following code extracts the first depth point in a DEPTH_POINT_CLOUD * format {@link android.media.Image}: * <pre> * FloatBuffer floatDepthBuffer = img.getPlanes()[0].getBuffer().asFloatBuffer(); * float x = floatDepthBuffer.get(); * float y = floatDepthBuffer.get(); * float z = floatDepthBuffer.get(); * float confidence = floatDepthBuffer.get(); * </pre> * */ public static final int DEPTH_POINT_CLOUD = 0x101; /** * Android private opaque image format. * <p> * The choices of the actual format and pixel data layout are entirely up to * the device-specific and framework internal implementations, and may vary * depending on use cases even for the same device. The buffers of this * format can be produced by components like * {@link android.media.ImageWriter ImageWriter} , and interpreted correctly * by consumers like {@link android.hardware.camera2.CameraDevice * CameraDevice} based on the device/framework private information. However, * these buffers are not directly accessible to the application. * </p> * <p> * When an {@link android.media.Image Image} of this format is obtained from * an {@link android.media.ImageReader ImageReader} or * {@link android.media.ImageWriter ImageWriter}, the * {@link android.media.Image#getPlanes() getPlanes()} method will return an * empty {@link android.media.Image.Plane Plane} array. * </p> * <p> * If a buffer of this format is to be used as an OpenGL ES texture, the * framework will assume that sampling the texture will always return an * alpha value of 1.0 (i.e. the buffer contains only opaque pixel values). * </p> */ public static final int PRIVATE = 0x22; /** * Use this function to retrieve the number of bits per pixel of an * ImageFormat. * * @param format * @return the number of bits per pixel of the given format or -1 if the * format doesn't exist or is not supported. */ public static int getBitsPerPixel(int format) { switch (format) { case RGB_565: return 16; case NV16: return 16; case YUY2: return 16; case YV12: return 12; case Y8: return 8; case Y16: case DEPTH16: return 16; case NV21: return 12; case YUV_420_888: return 12; case YUV_422_888: return 16; case YUV_444_888: return 24; case FLEX_RGB_888: return 24; case FLEX_RGBA_8888: return 32; case RAW_SENSOR: return 16; case RAW10: return 10; case RAW12: return 12; } return -1; } /** * Determine whether or not this is a public-visible {@code format}. * * <p>In particular, {@code @hide} formats will return {@code false}.</p> * * <p>Any other formats (including UNKNOWN) will return {@code false}.</p> * * @param format an integer format * @return a boolean * * @hide */ public static boolean isPublicFormat(int format) { switch (format) { case RGB_565: case NV16: case YUY2: case YV12: case JPEG: case NV21: case YUV_420_888: case YUV_422_888: case YUV_444_888: case FLEX_RGB_888: case FLEX_RGBA_8888: case RAW_SENSOR: case RAW10: case RAW12: case DEPTH16: case DEPTH_POINT_CLOUD: case PRIVATE: return true; } return false; } }