The only absolute dimension for images are pixels.
Resolution, mm or density or resolution do only come into play when you render the image on a certain surface (screen display, paper printout).
These have their own built-in, hardware-dependent resolution. If you know it, you can compute the mm values for the image dimensions, provided you want to render it in its "natural size".
Very often you do not want the "natural size" -- sometimes you may want: "fill the Letter-sized paper with the image" (scale to fit). If that happens, the same image will have to be scaled up or down -- but the screen or printer resolution will not change, it's only that an interpolation algorithm will start to add pixels to fill the gap (scale up) or remove pixels to make the picture appear smaller (scale down).
So before someone can give an algorithm about how to compute the "image size in mm" (in the image's natural size) you need to know the resolution of the target device (screen or printer).
If you embed a given image (which has its size in pixels) into a PDF (where the source document comes for example from LaTeX), you still have to specify...
- ...either at which resolution you want the image be rendered on the page
- ...or at which size (either in mm or in % of the page dimensions) you want the image rendered.
You cannot determine both these parameters at the same time without resampling the image. Pick one, and the other is implicitly determined by your pick.
To give an example.
Assume your original image is 2160x1440 pixels.
Your LaTeX -> PDF transformation is done by Ghostscript. Ghostscript internally uses a default resolution of 720 dpi for all raster objects. So unless you set "resolution" explicitly to a different value for your PDF conversion, the image will have a size of 3x2 inches (76.2 x 50.8 mm) on a PDF or print page.
If you set the resolution to 90 dpi, the image will have a size of 24x16 inches (609.6 x 406.4 mm) on the page.
If you set the resolution to 270 dpi (which is close to the commonly used 300 dpi), the image size transforms to 8x5.333 inches (203.2 x 135.5 mm).
So the formula for a shell script is:
# 25.4 mm == 1 inch
image_width_px=W # in pixels (integer)
image_height_px=H # in pixels (integer)
resolution=R # in pixels/inch
image_width_in_inch=$((W / R)) # Shell arithmetics: does only handle
image_height_in_inch=$((H / R)) #+ and return integers!
image_width_in_mm=$(( $((W / R)) * 254/10 ))
image_height_in_mm=$(( $((H / R)) * 254/10 ))
# use 'bc' to achieve higher precision arithmetics:
precise_image_width_in_mm=$( echo \
"$image_width_px / $resolution * 25.4" \
| bc -l )
precise_image_height_in_mm=$( echo \
"$image_height_px / $resolution * 25.4" \
| bc -l )