32

So, I wanted to explore new Google's Camera API - CameraX. What I want to do, is take an image from camera feed every second and then pass it into a function that accepts bitmap for machine learning purposes.

I read the documentation on Camera X Image Analyzer:

The image analysis use case provides your app with a CPU-accessible image to perform image processing, computer vision, or machine learning inference on. The application implements an Analyzer method that is run on each frame.

..which basically is what I need. So, I implemented this image analyzer like this:

imageAnalysis.setAnalyzer { image: ImageProxy, _: Int ->
    viewModel.onAnalyzeImage(image)
}

What I get is image: ImageProxy. How can I transfer this ImageProxy to Bitmap?

I tried to solve it like this:

fun decodeBitmap(image: ImageProxy): Bitmap? {
    val buffer = image.planes[0].buffer
    val bytes = ByteArray(buffer.capacity()).also { buffer.get(it) }
    return BitmapFactory.decodeByteArray(bytes, 0, bytes.size)
}

But it returns null - because decodeByteArray does not receive valid (?) bitmap bytes. Any ideas?

0
46
+50

You will need to check the image.format to see if it is ImageFormat.YUV_420_888. If so , then you can you use this extension to convert image to bitmap:

fun Image.toBitmap(): Bitmap {
    val yBuffer = planes[0].buffer // Y
    val vuBuffer = planes[2].buffer // VU

    val ySize = yBuffer.remaining()
    val vuSize = vuBuffer.remaining()

    val nv21 = ByteArray(ySize + vuSize)

    yBuffer.get(nv21, 0, ySize)
    vuBuffer.get(nv21, ySize, vuSize)

    val yuvImage = YuvImage(nv21, ImageFormat.NV21, this.width, this.height, null)
    val out = ByteArrayOutputStream()
    yuvImage.compressToJpeg(Rect(0, 0, yuvImage.width, yuvImage.height), 50, out)
    val imageBytes = out.toByteArray()
    return BitmapFactory.decodeByteArray(imageBytes, 0, imageBytes.size)
}

This works for a number of camera configurations. However, you might need to use a more advanced method that considers pixel strides.

13
  • This is actually works. one of the only solutions that works but after implementing this in my image analyzer everything gets slow and glitchy the frames are moving slow on the preview, did you managed to solve that either ?
    – Kashkashio
    Jul 27 '19 at 12:19
  • 1
    @Kashkashio Is that on an emulator or an actual device? I notice that the image analysis use case doesn't work on the emulator but I am having no issues on a real device. If you are having issues on a real device, maybe create a new stackoverflow issue with your code and I can take a look.
    – Mike A
    Jul 29 '19 at 15:30
  • 1
    i've tried this and this is actually the only way i could create a bitmap. but - now it doesn't recognize any text in my images. before when i passed the detector through fromMediaImage it did recognize text. any idea why? i tried displaying the generated bitmap to an ImageView and it is just gibberish. just a bunch green lines. Jan 22 '20 at 15:12
  • 10
    I am getting gibberish green image with the above logic . Did any fix the issue ?
    – ArpitA
    Feb 5 '20 at 7:21
  • 1
    I get gibberish image also. Anyone fixed it? This solution does not work on Xioami MI A2 at all. Jun 18 '20 at 12:07
17

I needed that code of Mike A in Java so I converted it.

You can first convert ImageProxy to Image in Java using

Image image = imageProxy.getImage();

And then you can convert Image to Bitmap using upper function converted into Java

private Bitmap toBitmap(Image image) {
    Image.Plane[] planes = image.getPlanes();
    ByteBuffer yBuffer = planes[0].getBuffer();
    ByteBuffer uBuffer = planes[1].getBuffer();
    ByteBuffer vBuffer = planes[2].getBuffer();

    int ySize = yBuffer.remaining();
    int uSize = uBuffer.remaining();
    int vSize = vBuffer.remaining();

    byte[] nv21 = new byte[ySize + uSize + vSize];
    //U and V are swapped
    yBuffer.get(nv21, 0, ySize);
    vBuffer.get(nv21, ySize, vSize);
    uBuffer.get(nv21, ySize + vSize, uSize);

    YuvImage yuvImage = new YuvImage(nv21, ImageFormat.NV21, image.getWidth(), image.getHeight(), null);
    ByteArrayOutputStream out = new ByteArrayOutputStream();
    yuvImage.compressToJpeg(new Rect(0, 0, yuvImage.getWidth(), yuvImage.getHeight()), 75, out);

    byte[] imageBytes = out.toByteArray();
    return BitmapFactory.decodeByteArray(imageBytes, 0, imageBytes.length);
}

Rights of this Answer are reserve to Mike A

4
  • 2
    You might want to fix up the compressToJpeg line to replace the constants with (0, 0, yuvImage.getWidth(), yuvImage.getHeight())
    – greatape
    Jan 13 '20 at 13:36
  • It works however image is rotated
    – murt
    Jun 7 at 17:27
  • this won't work. Most of the devices getting distorted images. (Check bitmap preview before moving on). Jul 12 at 11:56
  • I moved to yuvToRgbConverter.kt file Jul 12 at 11:56
12

There is another implementation of this conversion. At first YUV_420_888 is converted to NV21 and then RenderScript is used to convert to bitmap (so it is expected to be more effecient). Moreover it considers pixel stride which is more correct. Also it is from official android camera samples repo.

If anyone doesn't want to deal with RenderScript and synchronization here is the modified code:

fun ImageProxy.toBitmap(): Bitmap? {
    val nv21 = yuv420888ToNv21(this)
    val yuvImage = YuvImage(nv21, ImageFormat.NV21, width, height, null)
    return yuvImage.toBitmap()
}

private fun YuvImage.toBitmap(): Bitmap? {
    val out = ByteArrayOutputStream()
    if (!compressToJpeg(Rect(0, 0, width, height), 100, out))
        return null
    val imageBytes: ByteArray = out.toByteArray()
    return BitmapFactory.decodeByteArray(imageBytes, 0, imageBytes.size)
}

private fun yuv420888ToNv21(image: ImageProxy): ByteArray {
    val pixelCount = image.cropRect.width() * image.cropRect.height()
    val pixelSizeBits = ImageFormat.getBitsPerPixel(ImageFormat.YUV_420_888)
    val outputBuffer = ByteArray(pixelCount * pixelSizeBits / 8)
    imageToByteBuffer(image, outputBuffer, pixelCount)
    return outputBuffer
}

private fun imageToByteBuffer(image: ImageProxy, outputBuffer: ByteArray, pixelCount: Int) {
    assert(image.format == ImageFormat.YUV_420_888)

    val imageCrop = image.cropRect
    val imagePlanes = image.planes

    imagePlanes.forEachIndexed { planeIndex, plane ->
        // How many values are read in input for each output value written
        // Only the Y plane has a value for every pixel, U and V have half the resolution i.e.
        //
        // Y Plane            U Plane    V Plane
        // ===============    =======    =======
        // Y Y Y Y Y Y Y Y    U U U U    V V V V
        // Y Y Y Y Y Y Y Y    U U U U    V V V V
        // Y Y Y Y Y Y Y Y    U U U U    V V V V
        // Y Y Y Y Y Y Y Y    U U U U    V V V V
        // Y Y Y Y Y Y Y Y
        // Y Y Y Y Y Y Y Y
        // Y Y Y Y Y Y Y Y
        val outputStride: Int

        // The index in the output buffer the next value will be written at
        // For Y it's zero, for U and V we start at the end of Y and interleave them i.e.
        //
        // First chunk        Second chunk
        // ===============    ===============
        // Y Y Y Y Y Y Y Y    V U V U V U V U
        // Y Y Y Y Y Y Y Y    V U V U V U V U
        // Y Y Y Y Y Y Y Y    V U V U V U V U
        // Y Y Y Y Y Y Y Y    V U V U V U V U
        // Y Y Y Y Y Y Y Y
        // Y Y Y Y Y Y Y Y
        // Y Y Y Y Y Y Y Y
        var outputOffset: Int

        when (planeIndex) {
            0 -> {
                outputStride = 1
                outputOffset = 0
            }
            1 -> {
                outputStride = 2
                // For NV21 format, U is in odd-numbered indices
                outputOffset = pixelCount + 1
            }
            2 -> {
                outputStride = 2
                // For NV21 format, V is in even-numbered indices
                outputOffset = pixelCount
            }
            else -> {
                // Image contains more than 3 planes, something strange is going on
                return@forEachIndexed
            }
        }

        val planeBuffer = plane.buffer
        val rowStride = plane.rowStride
        val pixelStride = plane.pixelStride

        // We have to divide the width and height by two if it's not the Y plane
        val planeCrop = if (planeIndex == 0) {
            imageCrop
        } else {
            Rect(
                    imageCrop.left / 2,
                    imageCrop.top / 2,
                    imageCrop.right / 2,
                    imageCrop.bottom / 2
            )
        }

        val planeWidth = planeCrop.width()
        val planeHeight = planeCrop.height()

        // Intermediate buffer used to store the bytes of each row
        val rowBuffer = ByteArray(plane.rowStride)

        // Size of each row in bytes
        val rowLength = if (pixelStride == 1 && outputStride == 1) {
            planeWidth
        } else {
            // Take into account that the stride may include data from pixels other than this
            // particular plane and row, and that could be between pixels and not after every
            // pixel:
            //
            // |---- Pixel stride ----|                    Row ends here --> |
            // | Pixel 1 | Other Data | Pixel 2 | Other Data | ... | Pixel N |
            //
            // We need to get (N-1) * (pixel stride bytes) per row + 1 byte for the last pixel
            (planeWidth - 1) * pixelStride + 1
        }

        for (row in 0 until planeHeight) {
            // Move buffer position to the beginning of this row
            planeBuffer.position(
                    (row + planeCrop.top) * rowStride + planeCrop.left * pixelStride)

            if (pixelStride == 1 && outputStride == 1) {
                // When there is a single stride value for pixel and output, we can just copy
                // the entire row in a single step
                planeBuffer.get(outputBuffer, outputOffset, rowLength)
                outputOffset += rowLength
            } else {
                // When either pixel or output have a stride > 1 we must copy pixel by pixel
                planeBuffer.get(rowBuffer, 0, rowLength)
                for (col in 0 until planeWidth) {
                    outputBuffer[outputOffset] = rowBuffer[col * pixelStride]
                    outputOffset += outputStride
                }
            }
        }
    }
}

NOTE. There is a similar conversion in OpenCV android SDK.

0
6

I experienced ArrayIndexOutOfBoundsException when accessing buffer from image.getPlanes(). The following function can convert ImageProxy to Bitmap without the exception.

Java

private Bitmap convertImageProxyToBitmap(ImageProxy image) {
        ByteBuffer byteBuffer = image.getPlanes()[0].getBuffer();
        byteBuffer.rewind();
        byte[] bytes = new byte[byteBuffer.capacity()];
        byteBuffer.get(bytes);
        byte[] clonedBytes = bytes.clone();
        return BitmapFactory.decodeByteArray(clonedBytes, 0, clonedBytes.length);
    }

Kotlin Extension function

fun ImageProxy.convertImageProxyToBitmap(): Bitmap {
        val buffer = planes[0].buffer
        buffer.rewind()
        val bytes = ByteArray(buffer.capacity())
        buffer.get(bytes)
        return BitmapFactory.decodeByteArray(bytes, 0, bytes.size)
    }
4
  • 4
    For those who are considering why there are different solutions that work: check the format of your ImageProxy with imageProxy.getFormat(). If your format is 35 you can use @Mike A solution, if your format is 256 you can use @darwin solution. At the end and obviously, each format requires a different conversion procedure. @Mike A and @Ahwar solutions are for YUV_420_888. Image formats: developer.android.com/reference/android/graphics/…
    – BCJuan
    Jan 8 at 17:59
  • 2
    @BCJuan is right. I tried and it worked for me keeping the format in mind and using Mike A, Ahwar, and darwin's algorithms. Thank you all. Feb 10 at 14:52
  • 1
    This code throws exception BitmapFactory.decodeByte…ray(bytes, 0, bytes.size) must not be null
    – murt
    Jun 7 at 17:17
  • Worked for me Thanks Jun 25 at 8:51
3

Inspired from the answer by @mike-a

private fun ImageProxy.toMat(): Mat {
  val graySourceMatrix = Mat(height, width, CvType.CV_8UC1)
  val yBuffer = planes[0].buffer
  val ySize = yBuffer.remaining()
  val yPlane = ByteArray(ySize)
  yBuffer[yPlane, 0, ySize]
  graySourceMatrix.put(0, 0, yPlane)
  return graySourceMatrix
}

This will directly take you to gray-matrix-land, if you intend to use OpenCV, and colors don't matter to you anymore.

For performance you can move the initialization of the Mat outside if you're doing this on every frame.

0
2

There is a more simple solution. You just can get Bitmap from the TextureView without any converting. More information in documentation.

imageAnalysis.setAnalyzer { image: ImageProxy, _: Int ->
    val bitmap = textureView.bitmap
}
2
  • when we do this, fps are dropping down. Dec 18 '20 at 14:51
  • Yeah I doubt you should be doing this, the Analysis Use case is expecting you to be using the imageProxy as it will be at a lower more manageable resolution, it will also be expecting you to close the imageProxy once you have retrieved the current Image buffer so that the camera can move on to the next incoming frame. May 10 at 21:33
-1

well,you set a preview to the textureview,you can just

Bitmap bitmap = textureView.getBitmap();

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