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Are there any known size/space limitation of QPixmap and/or QImage objects documented? I did not find any useful information regarding this. I'm currently using Qt 4.7.3 on OSX and Windows. Particulary I'm interested in:

  • Width/Height limits?
  • Limits depending on color format?
  • Difference between 32/64 bit machines?
  • Difference regarding OS?

I would naively suspect that memory is the only limitation, so one could calculate max size by

width x height x byte_per_pixel

I assume that there is a more elaborate rule of thumb; also 32bit machines may have addressing problems when you run into GB dimensions.

In the end I want to store multiple RGBA images of about 16000x16000 pixel in size and render them using transparency onto each other within a QGraphicsScene. The workstation available can have a lot of RAM, let's say 16GB.

tl;dr: What size limits of QImage/QPixmap are you aware of, or where can I find such information?

Edit: I'm aware of the tiling approach and I'm fine with that. Still it would be great to know the things described above.


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4 Answers 4

up vote 8 down vote accepted

Both are limited to 32767x32767 pixels. That is, you can think of them as using a signed 16-bit value for both the X and Y resolution.

No axis can ever exceed 32767 pixels, even if the other axis is only 1 pixel. Operating system "bitness" does not affect the limitation. The underlying system may run into other limits, such as memory as you mentioned, before such a huge image can be created.

You can see an example of this limitation in the following source code:

if (uint(w) >= 32768 || uint(h) >= 32768) {
    w = h = 0;
    is_null = true;
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This may be correct for QPixmap, but for the limitations of QImage see @povman's answer. – Thorbjørn Lindeijer Apr 6 at 20:30

Building on the answer by @charles-burns, here is relevant source code for QImage:

QImageData *d = 0;

if (format == QImage::Format_Invalid)
    return d;

const int depth = qt_depthForFormat(format);
const int calc_bytes_per_line = ((width * depth + 31)/32) * 4;
const int min_bytes_per_line = (width * depth + 7)/8;

if (bpl <= 0)
    bpl = calc_bytes_per_line;

if (width <= 0 || height <= 0 || !data
    || INT_MAX/sizeof(uchar *) < uint(height)
    || INT_MAX/uint(depth) < uint(width)
    || bpl <= 0
    || height <= 0
    || bpl < min_bytes_per_line
    || INT_MAX/uint(bpl) < uint(height))
    return d;                                        // invalid parameter(s)

So here, bpl is the number of bytes per line, which is effectively width * depth_in_bytes. Using algebra on that final invalid test:

  • INT_MAX/uint(bpl) < uint(height)
  • INT_MAX < uint(height) * uint(bpl)
  • INT_MAX < height * width * depth_in_bytes

So, your image size in total must be less than 2147483647 (for 32-bit ints).

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Are you building a 64 bit app? If not, you are going to run into memory issues very quickly. On Windows, even if the machine has 16GB ram, a 32 bit process will be limited to 2GB (Unless it is LARGEADDRESSAWARE then 3GB). A 16000x16000 image will be just under 1 GB, so you'll only be able to allocate enough memory for 1, maybe 2 if you are very lucky.

With a 64 bit app you should be able to allocate enough memory for several images.

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I actually had occasion to look into this at one time. Do a search in the source code of qimage.cpp for "sanity check for potential overflows" and you can see the checks that Qt is doing. Basically,

  • The number of bytes required (width * height * depth_for_format) must be less than INT_MAX.
  • It must be able to malloc those bytes at the point you are creating the QImage instance.
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