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/*
* Copyright (C) 2013 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.media;
import java.nio.ByteBuffer;
import java.lang.AutoCloseable;
import android.annotation.Nullable;
import android.graphics.Rect;
import android.hardware.HardwareBuffer;
/**
* A single complete image buffer to use with a media source such as a
* {@link MediaCodec} or a
* {@link android.hardware.camera2.CameraDevice CameraDevice}.
*
* This class allows for efficient direct application access to the pixel
* data of the Image through one or more
* {@link java.nio.ByteBuffer ByteBuffers}. Each buffer is encapsulated in a
* {@link Plane} that describes the layout of the pixel data in that plane. Due
* to this direct access, and unlike the {@link android.graphics.Bitmap Bitmap} class,
* Images are not directly usable as UI resources.
*
* Since Images are often directly produced or consumed by hardware
* components, they are a limited resource shared across the system, and should
* be closed as soon as they are no longer needed.
*
* For example, when using the {@link ImageReader} class to read out Images
* from various media sources, not closing old Image objects will prevent the
* availability of new Images once
* {@link ImageReader#getMaxImages the maximum outstanding image count} is
* reached. When this happens, the function acquiring new Images will typically
* throw an {@link IllegalStateException}.
*
* @see ImageReader
*/
public abstract class Image implements AutoCloseable {
/**
* @hide
*/
protected boolean mIsImageValid = false;
/**
* @hide
*/
protected Image() {
}
/**
* Throw IllegalStateException if the image is invalid (already closed).
*
* @hide
*/
protected void throwISEIfImageIsInvalid() {
if (!mIsImageValid) {
throw new IllegalStateException("Image is already closed");
}
}
/**
* Get the format for this image. This format determines the number of
* ByteBuffers needed to represent the image, and the general layout of the
* pixel data in each in ByteBuffer.
*
*
* The format is one of the values from
* {@link android.graphics.ImageFormat ImageFormat}. The mapping between the
* formats and the planes is as follows:
*
*
*
*
* Format
* Plane count
* Layout details
*
*
* {@link android.graphics.ImageFormat#JPEG JPEG}
* 1
* Compressed data, so row and pixel strides are 0. To uncompress, use
* {@link android.graphics.BitmapFactory#decodeByteArray BitmapFactory#decodeByteArray}.
*
*
*
* {@link android.graphics.ImageFormat#YUV_420_888 YUV_420_888}
* 3
* A luminance plane followed by the Cb and Cr chroma planes.
* The chroma planes have half the width and height of the luminance
* plane (4:2:0 subsampling). Each pixel sample in each plane has 8 bits.
* Each plane has its own row stride and pixel stride.
*
*
* {@link android.graphics.ImageFormat#YUV_422_888 YUV_422_888}
* 3
* A luminance plane followed by the Cb and Cr chroma planes.
* The chroma planes have half the width and the full height of the luminance
* plane (4:2:2 subsampling). Each pixel sample in each plane has 8 bits.
* Each plane has its own row stride and pixel stride.
*
*
* {@link android.graphics.ImageFormat#YUV_444_888 YUV_444_888}
* 3
* A luminance plane followed by the Cb and Cr chroma planes.
* The chroma planes have the same width and height as that of the luminance
* plane (4:4:4 subsampling). Each pixel sample in each plane has 8 bits.
* Each plane has its own row stride and pixel stride.
*
*
* {@link android.graphics.ImageFormat#FLEX_RGB_888 FLEX_RGB_888}
* 3
* A R (red) plane followed by the G (green) and B (blue) planes.
* All planes have the same widths and heights.
* Each pixel sample in each plane has 8 bits.
* Each plane has its own row stride and pixel stride.
*
*
* {@link android.graphics.ImageFormat#FLEX_RGBA_8888 FLEX_RGBA_8888}
* 4
* A R (red) plane followed by the G (green), B (blue), and
* A (alpha) planes. All planes have the same widths and heights.
* Each pixel sample in each plane has 8 bits.
* Each plane has its own row stride and pixel stride.
*
*
* {@link android.graphics.ImageFormat#RAW_SENSOR RAW_SENSOR}
* 1
* A single plane of raw sensor image data, with 16 bits per color
* sample. The details of the layout need to be queried from the source of
* the raw sensor data, such as
* {@link android.hardware.camera2.CameraDevice CameraDevice}.
*
*
*
* {@link android.graphics.ImageFormat#RAW_PRIVATE RAW_PRIVATE}
* 1
* A single plane of raw sensor image data of private layout.
* The details of the layout is implementation specific. Row stride and
* pixel stride are undefined for this format. Calling {@link Plane#getRowStride()}
* or {@link Plane#getPixelStride()} on RAW_PRIVATE image will cause
* UnSupportedOperationException being thrown.
*
*
*
*
* @see android.graphics.ImageFormat
*/
public abstract int getFormat();
/**
* The width of the image in pixels. For formats where some color channels
* are subsampled, this is the width of the largest-resolution plane.
*/
public abstract int getWidth();
/**
* The height of the image in pixels. For formats where some color channels
* are subsampled, this is the height of the largest-resolution plane.
*/
public abstract int getHeight();
/**
* Get the timestamp associated with this frame.
*
* The timestamp is measured in nanoseconds, and is normally monotonically
* increasing. The timestamps for the images from different sources may have
* different timebases therefore may not be comparable. The specific meaning and
* timebase of the timestamp depend on the source providing images. See
* {@link android.hardware.Camera Camera},
* {@link android.hardware.camera2.CameraDevice CameraDevice},
* {@link MediaPlayer} and {@link MediaCodec} for more details.
*
*/
public abstract long getTimestamp();
/**
* Get the transformation associated with this frame.
* @return The window transformation that needs to be applied for this frame.
* @hide
*/
public abstract int getTransform();
/**
* Get the scaling mode associated with this frame.
* @return The scaling mode that needs to be applied for this frame.
* @hide
*/
public abstract int getScalingMode();
/**
* Get the {@link android.hardware.HardwareBuffer HardwareBuffer} handle of the input image
* intended for GPU and/or hardware access.
*
* The returned {@link android.hardware.HardwareBuffer HardwareBuffer} shall not be used
* after {@link Image#close Image.close()} has been called.
*
* @return the HardwareBuffer associated with this Image or null if this Image doesn't support
* this feature. (Unsupported use cases include Image instances obtained through
* {@link android.media.MediaCodec MediaCodec}, and on versions prior to Android P,
* {@link android.media.ImageWriter ImageWriter}).
*/
@Nullable
public HardwareBuffer getHardwareBuffer() {
throwISEIfImageIsInvalid();
return null;
}
/**
* Set the timestamp associated with this frame.
*
* The timestamp is measured in nanoseconds, and is normally monotonically
* increasing. The timestamps for the images from different sources may have
* different timebases therefore may not be comparable. The specific meaning and
* timebase of the timestamp depend on the source providing images. See
* {@link android.hardware.Camera Camera},
* {@link android.hardware.camera2.CameraDevice CameraDevice},
* {@link MediaPlayer} and {@link MediaCodec} for more details.
*
*
* For images dequeued from {@link ImageWriter} via
* {@link ImageWriter#dequeueInputImage()}, it's up to the application to
* set the timestamps correctly before sending them back to the
* {@link ImageWriter}, or the timestamp will be generated automatically when
* {@link ImageWriter#queueInputImage queueInputImage()} is called.
*
*
* @param timestamp The timestamp to be set for this image.
*/
public void setTimestamp(long timestamp) {
throwISEIfImageIsInvalid();
return;
}
private Rect mCropRect;
/**
* Get the crop rectangle associated with this frame.
*
* The crop rectangle specifies the region of valid pixels in the image,
* using coordinates in the largest-resolution plane.
*/
public Rect getCropRect() {
throwISEIfImageIsInvalid();
if (mCropRect == null) {
return new Rect(0, 0, getWidth(), getHeight());
} else {
return new Rect(mCropRect); // return a copy
}
}
/**
* Set the crop rectangle associated with this frame.
*
* The crop rectangle specifies the region of valid pixels in the image,
* using coordinates in the largest-resolution plane.
*/
public void setCropRect(Rect cropRect) {
throwISEIfImageIsInvalid();
if (cropRect != null) {
cropRect = new Rect(cropRect); // make a copy
if (!cropRect.intersect(0, 0, getWidth(), getHeight())) {
cropRect.setEmpty();
}
}
mCropRect = cropRect;
}
/**
* Get the array of pixel planes for this Image. The number of planes is
* determined by the format of the Image. The application will get an empty
* array if the image format is {@link android.graphics.ImageFormat#PRIVATE
* PRIVATE}, because the image pixel data is not directly accessible. The
* application can check the image format by calling
* {@link Image#getFormat()}.
*/
public abstract Plane[] getPlanes();
/**
* Free up this frame for reuse.
*
* After calling this method, calling any methods on this {@code Image} will
* result in an {@link IllegalStateException}, and attempting to read from
* or write to {@link ByteBuffer ByteBuffers} returned by an earlier
* {@link Plane#getBuffer} call will have undefined behavior. If the image
* was obtained from {@link ImageWriter} via
* {@link ImageWriter#dequeueInputImage()}, after calling this method, any
* image data filled by the application will be lost and the image will be
* returned to {@link ImageWriter} for reuse. Images given to
* {@link ImageWriter#queueInputImage queueInputImage()} are automatically
* closed.
*
*/
@Override
public abstract void close();
/**
*
* Check if the image can be attached to a new owner (e.g. {@link ImageWriter}).
*
*
* This is a package private method that is only used internally.
*
*
* @return true if the image is attachable to a new owner, false if the image is still attached
* to its current owner, or the image is a stand-alone image and is not attachable to
* a new owner.
*/
boolean isAttachable() {
throwISEIfImageIsInvalid();
return false;
}
/**
*
* Get the owner of the {@link Image}.
*
*
* The owner of an {@link Image} could be {@link ImageReader}, {@link ImageWriter},
* {@link MediaCodec} etc. This method returns the owner that produces this image, or null
* if the image is stand-alone image or the owner is unknown.
*
*
* This is a package private method that is only used internally.
*
*
* @return The owner of the Image.
*/
Object getOwner() {
throwISEIfImageIsInvalid();
return null;
}
/**
* Get native context (buffer pointer) associated with this image.
*
* This is a package private method that is only used internally. It can be
* used to get the native buffer pointer and passed to native, which may be
* passed to {@link ImageWriter#attachAndQueueInputImage} to avoid a reverse
* JNI call.
*
*
* @return native context associated with this Image.
*/
long getNativeContext() {
throwISEIfImageIsInvalid();
return 0;
}
/**
* A single color plane of image data.
*
* The number and meaning of the planes in an Image are determined by the
* format of the Image.
*
* Once the Image has been closed, any access to the the plane's
* ByteBuffer will fail.
*
* @see #getFormat
*/
public static abstract class Plane {
/**
* @hide
*/
protected Plane() {
}
/**
* The row stride for this color plane, in bytes.
*
* This is the distance between the start of two consecutive rows of
* pixels in the image. Note that row stried is undefined for some formats
* such as
* {@link android.graphics.ImageFormat#RAW_PRIVATE RAW_PRIVATE},
* and calling getRowStride on images of these formats will
* cause an UnsupportedOperationException being thrown.
* For formats where row stride is well defined, the row stride
* is always greater than 0.
*/
public abstract int getRowStride();
/**
* The distance between adjacent pixel samples, in bytes.
*
* This is the distance between two consecutive pixel values in a row
* of pixels. It may be larger than the size of a single pixel to
* account for interleaved image data or padded formats.
* Note that pixel stride is undefined for some formats such as
* {@link android.graphics.ImageFormat#RAW_PRIVATE RAW_PRIVATE},
* and calling getPixelStride on images of these formats will
* cause an UnsupportedOperationException being thrown.
* For formats where pixel stride is well defined, the pixel stride
* is always greater than 0.
*/
public abstract int getPixelStride();
/**
* Get a direct {@link java.nio.ByteBuffer ByteBuffer}
* containing the frame data.
*
* In particular, the buffer returned will always have
* {@link java.nio.ByteBuffer#isDirect isDirect} return {@code true}, so
* the underlying data could be mapped as a pointer in JNI without doing
* any copies with {@code GetDirectBufferAddress}.
*
* For raw formats, each plane is only guaranteed to contain data
* up to the last pixel in the last row. In other words, the stride
* after the last row may not be mapped into the buffer. This is a
* necessary requirement for any interleaved format.
*
* @return the byte buffer containing the image data for this plane.
*/
public abstract ByteBuffer getBuffer();
}
}