collink -v -G AppleRGB.icc JapanColor2002Newspaper.icc apple_to_jNP_photo.icc
collink -v -f AppleRGB.icc JapanColor2002Newspaper.icc apple_to_jNP_neutrals.icc
Image_RGB apple_to_jNP_photo.icc 0 1 0
Graphic_RGB apple_to_jNP_neutrals.icc 0 1 0
Text_RGB apple_to_jNP_neutrals.icc 0 1 0
gswin32c -q -sDEVICE=pdfwrite -o out.pdf -sColorConversionStrategy=CMYK -sSourceObjectICC=control.txt in.pdf
DeviceRGB in source PDF is converted to
DeviceCMYK, and RGB
0/0/0 becomes (as I'm checking now) the
0, which should be OK (and all other neutral RGB shades are mapped to true grayscale, too).
The reason we are using different DL-profiles for different objects, is because, though saturated colors (far from neutrals) will be converted to the same CMYK through both profiles, nevertheless you probably don't want color suddenly switch to
0/0/0/n in continuous tone photographs, if color happens to be near neutral -- it'll look terrible on the press.
If your "images" are e.g. rasterized graphics (diagrams, etc.) with
0/0/0 RGB, then you can consider using
apple_to_jNP_neutrals.icc for these images too.
If your page has a mix of both real images and rasterized graphics (text) - bad luck, you'll have to compromise.
The reason we use
-G instead of fast and simple
Simple Mode, is because
-f (for second profile) implies the "Gamut Mapping Mode using inverse outprofile A2B", and we want 2 profiles to produce the result (for saturated colors) as close to each other as possible.