Convert RGB ->CMYK and CMYK->RGB

And it’s not just the Ink Limit, the GCR (or UCR) also comes into play to determine the relative amounts of the four colors used to make up neutrals. 

Ок. But it happend with other colors too, not only with black. For Example R192 G173 B142 converts into C71 M3 Y54 K0. And C71 M3 Y54 K0 converts into R110 G174 B143, and  R110 G174 B143 converts into C71 M2 Y54 K0. All this happens in a one color profile.The shades of the resulting colors are almost identical. But I do not understand what color correspondences are more correct to specify to the customer in the logbook.

PS CMYK COATED FROGRA39(ISO12647-2:2004)

And which RGB?

You cannot specify color without also specifying a color space. All these numbers are specific to profile. And also keep in mind that roundtripping uses the working space as basis for the calculation, unless measured from an open document which will override the working space.

That said, I don't get your numbers into FOGRA39, either from sRGB, Adobe RGB or ProPhoto. So I have no idea what RGB you're starting from. It doesn't add up.

Color Space RGB: Adobe RGB (1998)

Color Space CMYC: COATED FROGRA39(ISO12647-2:2004)

Color mode: RGB

And all this color transformations (R192 G173 B142 -> C71 M3 Y54 K0; C71 M3 Y54 K0 -> R110 G174 B143; R110 G174 B143 -> C71 M2 Y54 K0 ) occur within the same file, and within the same color profile.

what do I need to do to get a clearer match between RGB and CMYK codes?

do I need to choose other color spaces? maybe there is some combination of them, in which there is a clearer correspondence between RGB and CMYK, or maybe there is something else??

Adobe RGB 192-173-142 results in FOGRA39 21-29-44-7 with Relative Colorimetric here (see screenshots). 

Which Intent are you using?

Please post meaningful screenshots. 

Sorry, its small mistake not 192  R109 G173 B142

R109 G173 B142 -> C71 M3 Y54 K0; C71 M3 Y54 K0 -> R110 G174 B143; R110 G174 B143 -> C71 M2 Y54 K0

Color Conversions have consequences … 

What is the issue really? What are you trying to achieve and why would it involve multiple Color Conversions? 

I want to find out if there are any colors that when converting from RGB to CMYK and then back from CMYK to RGB give the same code.

Sometimes, randomly, converting to a colour and back again may give the same colour. But it is just luck. Colour conversion is not a mathematical formula that can be reversed. 

I couldn't get those numbers to match either. I think the OP either has

• untagged documents, or
• is making screenshots, assuming the original document profile is still valid (which it isn't), or
• has working spaces different from whatever documents are open. In that case, numbers are calculated from the working spaces unless there is an active document that overrides it.

The black point compensation will still affect all the numbers to varying degrees. And then - as c.p. pointed out above - you also have GCR (gray component replacement) and UCR (under color removal) modifying the numbers.

The extra black ink throws all kinds of wrenches into the equation. What goes one way doesn't necessarily go the other way.

I also like the analogy of language – if a text (that is not extremely simple) is translated from one language to another and then that is being translated to the original language again there is a high probability that the result will not match the original text word-for-word.  

I agree. There is no reason, none, never to convert colours and later convert them back, except broken workflows. I like the translation analogy too. Imagine writing a book, having it translated to Chinese, then deleting the original book because it could always be translated back if needed. It is clear that it would not be the same book. A workflow which designs in one colour space and converts WITHOUT ARCHIVING FIRST is a broken workflow.

" whether in the future, when selecting colors, you need to select them so that they give the same code when forming back and forth, so that they are commutative?" No, because you never go back and forth.

I think I may know where this is coming from. Some people find themselves stuck between a colour managed workflow and one where someone has given a list of CMYK or RGB colours to match. The problem is, you cannot mix these two workflows. The list of colours to match generally means the person choosing them doesn't know colour management.

There's a gotcha when going from RGB to CMYK, and it's the black ink. Or ink density and purity in general. The problem is that CMYK profiles aren't ideal, synthetic color spaces like the standard RGB spaces. They are based on real printing conditions. They describe physical inks on physical paper, laid down by a physical offset press. It's where the rubber hits the dirt, so to speak. So CMYK profiles have to compensate for a lot of imperfections. That's why forwards and backwards may not be the same thing.

If you go back and forth between standard RGB color spaces it should be consistent (as long as it's within gamut). In low precision (8 bit) you may get rounding errors, but if the precision is high enough you should end up with the same numbers. But CMYK is not in this high ideal world. CMYK profiles are intended as destination profiles. One way.

If the mode of your Photoshop document is RGB, and the Info panel’s eydropper is set to CMYK, the CMYK numbers show the expected conversion from your RGB document’s assigned RGB profile to the current Color Settings’ Working CMYK space using the chosen Intent and Black Point Compensation.

The Intent is the preference for how colors outside of the CMYK gamut are brought into gamut. Generally using Relative Colorimetric with BPC turned on produces the least amount of appearance change in out-of-gamut colors.

If you turn on Proof Colors with the Proof Setup set to Working CMYK you will get a soft proof of how your RGB document is expected to print—the RGB preview will be brought into the Working CMYK gamut. With Proof Colors turned on you can check the output CMYK numbers, and get a CMYK preview for a specific press condition without actually making the conversion to CMYK.

The accuracy of the soft proof and output numbers depends on both your Monitor profile and the chosen CMYK profile. Is your monitor profile an accurate representation of your monitor’s properties, and have you chosen the correct CMYK profile for the destination printing press (will your printer really be printing to that profile)?