Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

I am converting various PDFs uploaded by end users into images using following command

-density 140 -limit memory 64MB -limit map 128MB [pdffile] page.png

Here is the result. On the right we have original PDF and on the left output image. As you can see the colors are quite noticeably different.

What could be causing this and how fix it?


share|improve this question
up vote 4 down vote accepted

try following command:

-density 140 -limit memory 64MB -limit map 128MB -colorspace RGB [pdffile] page.png
share|improve this answer
that did it, thanks – Ilia G Nov 14 '12 at 15:03
In case that doesn't work for you, try sRGB instead of RGB. – joeytwiddle Feb 15 at 4:09

Use the -resample option:

-density 140 -resample 100 -limit memory 64MB -limit map 128MB [pdffile] page.png
share|improve this answer

Edit: I later discovered that ImageMagick can do it fine, I just needed to use -colorspace sRGB

My final command was:

convert -density 560 -limit memory 64MB -limit map 128MB \
        -colorspace sRGB [pdffile] -scale 25% page.png

The oversampling and scaling down was to counter the poor anti-aliasing mentioned below.

Before I discovered that, here was my earlier solution...

In my case the colors produced by ImageMagick's convert were oversaturated, quite like those in the question. I was trying to convert this file using IM

  • -resample 100 made no difference.

  • -colorspace RGB seemed to produce more accurate saturations, but the entire image was darker than it should have been.

Curiously, this suggestion to use GhostScript instead of ImageMagick for the conversion, produced very close to the correct colors:

gs -q -sDEVICE=png16m -dSubsetFonts=true -dEmbedAllFonts=true \
      -sOutputFile=page.png -r200 -dBATCH -dNOPAUSE [pdffile]

(The original suggestion passed the -dUseCIEColor option, but in my case this appeared to reduce the gamma: light pixels were fine, but the dark pixels were too dark, so I removed it.)

After that, the only thing that bothered me was that the anti-aliasing/edges were a little off in places (especially visible on curves passing 45 degrees). To improve that, I created the output at four times the required resolution, and then scaled down afterwards, rendering those errors almost imperceptible. Note that I had to use ImageMagick's -scale for this, and not -geometry or -resize, in order to avoid bicubic ringing effects.

share|improve this answer

The following images show how anti-aliasing improves if you sample at a higher resolution and then scale down.

Although 1120 was slightly better quality than 560, it took a long time to convert, so I would probably choose 560 for a good time:quality trade-off.

-colorspace sRGB -density 140

enter image description here

-colorspace sRGB -density 280 -scale 50%

enter image description here

-colorspace sRGB -density 420 -scale 33.3333%

enter image description here

-colorspace sRGB -density 560 -scale 25%

enter image description here

-colorspace sRGB -density 1120 -scale 12.5%

enter image description here

(It is easier to see the difference if you download the last two images and flip between them in your favourite image viewer. Or scroll up this list of images, instead of down. You should seem them becoming progressively uglier.)

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.