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Is there any other way besides using to get image height and width?

Because I encounter an issue that locks up the thread.

at com.sun.medialib.codec.jpeg.Decoder.njpeg_decode(Native Method)      
at com.sun.medialib.codec.jpeg.Decoder.decode(      
 - locked <0xd96fb668> (a      
 - locked <0xd96fb668> (a     
 - locked <0xd96fb668> (a      

This error only occurs on a Sun app server and therefore I suspect that it is a Sun bug.

share|improve this question
What error? You only show a part of a stack trace (that seems to come from jstack). – Joachim Sauer May 26 '10 at 9:50
Have you found the cause or fix to this problem? I'm getting the same issue where it's locking the thread on that same method. – Timothy Chen Jun 21 '10 at 19:07
There is a bug that might be related: – Adam Schmideg Mar 29 '11 at 11:20

11 Answers 11

Here is something very simple and handy.

BufferedImage bimg = File(filename));
int width          = bimg.getWidth();
int height         = bimg.getHeight();
share|improve this answer
This is the best answer by a very long way, and you've been cheated out of votes by the same answer posted by someone else 17 days after your post. This should be the top answer not the bottom. – Oversteer Jun 25 '12 at 11:07
@Vishal Rao: I remember putting some additional jars in the classpath for TIFF format files. I think it's jai_imageio.jar – Apurv Aug 10 '12 at 3:07
It was a bit confusing trying to find the right files, there are distribution specific ones but there are also a java platform dependant jar which can be placed in the classpath. At the time of writing the files are in a zip file available With instructions jai_imageio.jar is also needed, i couldnt find where to get this and end up downloading it as a dependancy from another project… – Dan675 Aug 23 '12 at 3:16
Works for me in Scala as well. – Marcus Downing Oct 15 '12 at 8:39
From all I'm reading, this reads the entire image into memory. Which is extreme just to get width and height. – Marc May 17 '15 at 20:07

I have found another way to read an image size (more generic). You can use ImageIO class in cooperation with ImageReaders. Here is the sample code:

private Dimension getImageDim(final String path) {
    Dimension result = null;
    String suffix = this.getFileSuffix(path);
    Iterator<ImageReader> iter = ImageIO.getImageReadersBySuffix(suffix);
    if (iter.hasNext()) {
        ImageReader reader =;
        try {
            ImageInputStream stream = new FileImageInputStream(new File(path));
            int width = reader.getWidth(reader.getMinIndex());
            int height = reader.getHeight(reader.getMinIndex());
            result = new Dimension(width, height);
        } catch (IOException e) {
        } finally {
    } else {
        log("No reader found for given format: " + suffix));
    return result;

Note that getFileSuffix is method that returns extension of path without "." so e.g.: png, jpg etc. Example implementation is:

private String getFileSuffix(final String path) {
    String result = null;
    if (path != null) {
        result = "";
        if (path.lastIndexOf('.') != -1) {
            result = path.substring(path.lastIndexOf('.'));
            if (result.startsWith(".")) {
                result = result.substring(1);
    return result;

This solution is very quick as only image size is read from the file and not the whole image. I tested it and there is no comparison to performance. I hope someone will find this useful.

share|improve this answer
getFileSuffix() contains unnecessary ifs and initialing with null is no good idea in this case. – Jimmy T. Dec 12 '13 at 22:23
Hell yeah this is "basically very quick"! I think you've qualified for 'understatement of the year' award with that one. Blows completely out of the water, both in terms of CPU time and memory usage. – aroth Feb 4 at 5:41
public static String getFileSuffix(final String path) { if (path != null && path.lastIndexOf('.') != -1) { return path.substring(path.lastIndexOf('.')).substring(1); } return null; } – N Panigrahy Mar 30 at 22:47

This is a rewrite of the great post by @Kay, which throws IOException and provides an early exit:

 * Gets image dimensions for given file 
 * @param imgFile image file
 * @return dimensions of image
 * @throws IOException if the file is not a known image
public static Dimension getImageDimension(File imgFile) throws IOException {
  int pos = imgFile.getName().lastIndexOf(".");
  if (pos == -1)
    throw new IOException("No extension for file: " + imgFile.getAbsolutePath());
  String suffix = imgFile.getName().substring(pos + 1);
  Iterator<ImageReader> iter = ImageIO.getImageReadersBySuffix(suffix);
  if (iter.hasNext()) {
    ImageReader reader =;
    try {
      ImageInputStream stream = new FileImageInputStream(imgFile);
      int width = reader.getWidth(reader.getMinIndex());
      int height = reader.getHeight(reader.getMinIndex());
      return new Dimension(width, height);
    } catch (IOException e) {
      log.warn("Error reading: " + imgFile.getAbsolutePath(), e);
    } finally {

  throw new IOException("Not a known image file: " + imgFile.getAbsolutePath());

I guess my rep is not high enough for my input to be considered worthy as a reply.

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Thanks for this! and considering the performance comparison done by user194715, i'll take your suggestion for performance and png consideration! Thank you! – ah-shiang han Nov 2 '15 at 5:50
Couldn't you also use probeContentType from the nio.Files package combined with javax.imageio.ImageIO.getImageReadersByMIMEType(mimeType) if you wanted to be certain of the type of file? – EdgeCaseBerg Nov 10 '15 at 19:14
Also, shouldn't you call .close() on stream before you return? otherwise you leave the stream open – EdgeCaseBerg Nov 10 '15 at 19:31

I tried to test performance using some of the various approaches listed. It's hard to make a rigorous test as many factors affect the result. I prepared two folders, one with 330 jpg files and another one with 330 png files. The average file size was 4Mb in both cases. Then I called getDimension for each file. Each implementation of getDimension method and each image type was tested separately (separate run). Here is the execution times that I got (first number for jpg, second number for png):

1(Apurv) - 101454ms, 84611ms
2(joinJpegs) - 471ms, N/A
3(Andrew Taylor) - 707ms, 68ms
4(Karussell, ImageIcon) - 106655ms, 100898ms
5(user350756) - 2649ms, 68ms

It's obvious that some methods load the whole file in order to get dimensions while others get by just reading some header information from the image. I think these numbers may be useful when application performance is critical.

Thank you everyone for the contribution to this thread - very helpful.

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Now that's an answer. Good job! – ssimm Feb 25 at 19:01

You can load jpeg binary data as a file and parse the jpeg headers yourself. The one you are looking for is the 0xFFC0 or Start of Frame header:

Start of frame marker (FFC0)

* the first two bytes, the length, after the marker indicate the number of bytes, including the two length bytes, that this header contains
* P -- one byte: sample precision in bits (usually 8, for baseline JPEG)
* Y -- two bytes
* X -- two bytes
* Nf -- one byte: the number of components in the image
      o 3 for color baseline JPEG images
      o 1 for grayscale baseline JPEG images

* Nf times:
      o Component ID -- one byte
      o H and V sampling factors -- one byte: H is first four bits and V is second four bits
      o Quantization table number-- one byte

The H and V sampling factors dictate the final size of the component they are associated with. For instance, the color space defaults to YCbCr and the H and V sampling factors for each component, Y, Cb, and Cr, default to 2, 1, and 1, respectively (2 for both H and V of the Y component, etc.) in the Jpeg-6a library by the Independent Jpeg Group. While this does mean that the Y component will be twice the size of the other two components--giving it a higher resolution, the lower resolution components are quartered in size during compression in order to achieve this difference. Thus, the Cb and Cr components must be quadrupled in size during decompression.

For more info about the headers check out wikipedia's jpeg entry or I got the above info here.

I used a method similar to the code below which I got from this post at the sun forums:

import java.awt.Dimension;

public class JPEGDim {

public static Dimension getJPEGDimension(File f) throws IOException {
	FileInputStream fis = new FileInputStream(f);

	// check for SOI marker
	if ( != 255 || != 216)
		throw new RuntimeException("SOI (Start Of Image) marker 0xff 0xd8 missing");

	Dimension d = null;

	while ( == 255) {
		int marker =;
		int len = << 8 |;

		if (marker == 192) {

			int height = << 8 |;
			int width = << 8 |;

			d = new Dimension(width, height);

		fis.skip(len - 2);


	return d;

public static void main(String[] args) throws IOException {
	System.out.println(getJPEGDimension(new File(args[0])));


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This helped me a LOT man! thanks! – Orr Matarasso Sep 22 '09 at 14:32
Good. But I think that instead of ==192 it should check numbers 192-207, except 196, 200 and 204. – vorrtex Oct 2 '14 at 5:38

I found this free class, work perfectly:

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Great find! Thank you! This is a very fast method and works great indeed. – rustyx Jun 6 '14 at 19:48

Simple way:

BufferedImage readImage = null;

try {
    readImage = File(your path);
    int h = readImage.getHeight();
    int w = readImage.getWidth();
} catch (Exception e) {
    readImage = null;
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Try using the ImageInfo freely available class, I've used it for the same purpose:

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That link is broken, but I found a class named ImageInfo at and it worked well for my purposes. – heycam Feb 23 '10 at 1:33

You could use the Toolkit, no need for ImageIO

Image image = Toolkit.getDefaultToolkit().getImage(file.getAbsolutePath());
int width = image.getWidth(null);
int height = image.getHeight(null);

If you don't want to handle the loading of the image do

ImageIcon imageIcon = new ImageIcon(file.getAbsolutePath());
int height = imageIcon.getIconHeight();
int width = imageIcon.getIconWidth();
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No need for ImageIO but need for Toolkit. What is the difference? – dit Jan 31 at 11:13
ImageIO is an external dependency. Toolkit not – Karussell Feb 1 at 13:20
ImageIO is part of Java since 1.4… – dit Feb 1 at 13:32
Yes, maybe this will work, sorry if this was confusing then. When I tried it I needed for some parts the JAI thing (maybe to read other formats?):… – Karussell Feb 1 at 16:48
oh I see. Interesting library thx ;) – dit Feb 1 at 18:06

To get a Buffered Image with is a very heavy method, as it's creating a complete uncompressed copy of the image in memory. For png's you may also use pngj and the code:

if (png)
    PngReader pngr = new PngReader(file);
    width = pngr.imgInfo.cols;
    height = pngr.imgInfo.rows;
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To get size of emf file without EMF Image Reader you can use code:

Dimension getImageDimForEmf(final String path) throws IOException {

    ImageInputStream inputStream = new FileImageInputStream(new File(path));


    // Skip magic number and file size

    int left   = inputStream.readInt();
    int top    = inputStream.readInt();
    int right  = inputStream.readInt();
    int bottom = inputStream.readInt();

    // Skip other headers

    int deviceSizeInPixelX = inputStream.readInt();
    int deviceSizeInPixelY = inputStream.readInt();

    int deviceSizeInMlmX = inputStream.readInt();
    int deviceSizeInMlmY = inputStream.readInt();

    int widthInPixel = (int) Math.round(0.5 + ((right - left + 1.0) * deviceSizeInPixelX / deviceSizeInMlmX) / 100.0);
    int heightInPixel = (int) Math.round(0.5 + ((bottom-top + 1.0) * deviceSizeInPixelY / deviceSizeInMlmY) / 100.0);


    return new Dimension(widthInPixel, heightInPixel);
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