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I want to open some relative big files (jpg, gif, bmp) using as little RAM as possible. Inside my program I need all open files converted to BMP so I can process them. However the conversion from JPG to BMP takes 27.1MB of RAM if I use the classic conversion code:

function ConvertJPG2BMP(FullFileName: string; BMP: TBitmap);
VAR JPG:  TJpegImage;
 JPG:= TJpegImage.Create;

because it uses two images (a jpeg that is transferred to a bitmap then).


However, if I use a TPicture to load the file, I use only 7.1MB of RAM. But in this case the TPicture.Bitmap is empty and I need a valid TBitmap object.

Is there any way to load images from disk while keeping the mem footprint small?


(Test file: 1.JPG 2.74MB 3264x1840 pix)

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Why you need to keep mem usage low? Modern PC has usually so much memory that 30 MB is barely noticeable. If you really want to keep memory usage low, you need probably deconstruct JPEG file "block by block".. –  Harriv Jul 6 '11 at 21:27
agree with Harriv on decoding remark, tiny footprint requires a) decoding JPEG 8×8px blocks separately and b) writing raster data to memory mapped DIB section. TJpegImage and TBitmap are incapable to comply with a) and b) respectively. GPL? –  Premature Optimization Jul 6 '11 at 21:57
Disargee about "just buy more RAM", tho. –  Premature Optimization Jul 6 '11 at 22:04
For the sake of comparison, convert your JPEG file to BMP and load the BMP file directly. How much memory does your program consume when you skip the JPEG? –  Rob Kennedy Jul 6 '11 at 22:16
@Harriv, i guess its a natural programmer's desire to minimize unneeded memory usage. And the OP's task not required having entire raster in memory. Also, OP's test raster is pretty small, naïve approach will eat more. @Altar, got an idea for comparison - TJPEGImage.Scale affects decoding memory footprint, make sure competing method(s) are not optimizing decompression this way. –  Premature Optimization Jul 7 '11 at 12:30
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2 Answers 2

up vote 1 down vote accepted

Back of the envelope calculation gives 6 mega pixels. Assuming 32 bit colour this takes you to 24MB.

You aren't going to do any better than your current code.

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Hi David. I almost agree with your calculus: I think the bitmap pixels are stored on 3 bytes (no transparency). This will result in 17.1MB. –  Altar Jul 6 '11 at 21:19
for alignment reasons even 24 bit colour consumes 32 bits per pixel –  David Heffernan Jul 6 '11 at 21:22
Also, how TPicture manages to load that jpeg file in only 7.1 MB? –  Altar Jul 6 '11 at 21:23
So on disk is 3 bytes and in RAM in 4 bytes... –  Altar Jul 6 '11 at 21:24
I don't know anything about jpeg. –  David Heffernan Jul 6 '11 at 21:25
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The memory usage does not come from the JPEG library, but in the way you use it.

If you convert a JPEG into a TBitmap, it will create a bitmap resource, then uncompress the JPEG into the bitmap memory buffer.

You can paint directly from the JPEG content into the screen. Depending on the JPEG implementation, it will use (or not) a temporary TBitmap.

You are not tied to the JPEG unit supplied by Borland.

For instance, you may try calling directly the StretchDIBits() windows API from the uncompressed memory buffer, as such (this code is extracted from our SSE JPEG decoder):

procedure TJpegDecode.DrawTo(Canvas: TCanvas; X, Y: integer);
var BMI: TBitmapInfo;
  if @self=nil then

Creating a huge bitmap is sometimes not possible (at least under Windows XP), because it uses shared GDI resources, whereas using plain RAM and StretchDIBits will always work, even for huge content. You can create a memory mapped file to handle the binary content, but just allocating the memory at once would suffice (and Windows will use hard drive only if short of RAM). With today's PCs, you should have enough RAM available even for big pictures. (17 MB is not a big deal, even for your 3264x1840 pix).

Then, from this global uncompressed memory buffer containing raw pixel triplets, you can use a smaller bitmap corresponding to a region of the picture, then work on the region using StretchDIBits(aBitmap.Handle,.... It will use less GDI resource.

You could also rely for instance on GDI+ drawing, which will draw it without any temporary bitmap. See e.g. this OpenSource unit. From our testing, it's very fast and can be used without any TBitmap. You could also ask only for a region of the whole picture, and draw it using GDI+ on your bitmap canvas: this will use less RAM. And your exe will be a bit smaller than the default JPEG unit. And you'll be able to display and save not only JPEG, but GIF and TIFF formats.

If you want to minimize even further the memory usage, you'll have to call directly the JPEG library, at lowest-level. It's able to uncompress only a region of the JPEG. So you would be able to minimize used RAM. You may try using the IJL library with Delphi, a bit old, but still working.

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What about the part of the question where OP says I need all open files converted to BMP so I can process them. –  David Heffernan Jul 7 '11 at 7:51
@David 1. You can process the binary content without using a global TBitmap, but using StretchDIBits over a smaller TBitmap.Handle, mapping only a region of the whole picture. 2. If you are able to work directly with regions of the JPEG (my last paragraph), you'll use less RAM and smaller bitmaps. –  Arnaud Bouchez Jul 7 '11 at 8:17
I'm sure you can do this if you wished. I will not be down voting your answer on the grounds that it does not address the question that OP asked. –  David Heffernan Jul 7 '11 at 8:19
Hi Bouchez. I have tried the SSE Jpeg decoder before but it doesn't work with all jpeg files. –  Altar Jul 7 '11 at 10:16
"You can paint directly from the JPEG content into the screen" - The image is never painted on screen. I apply quite some processing on it then I save it as BMP. I think that if I apply the processing on small pieces some of them will not work very well as they use the neighboring pixels to calculate stuff. Probably some odd lines will appear where the big image was cut in small pieces. –  Altar Jul 7 '11 at 10:19
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