collink (1)

Link ICC profiles

collink [options]srcprofiledstprofilelinkedprofile

-v Verbose

-A manufacturer Manufacturer description string

-M model

Model description string

-D description

Profile Description string (Default "inoutfile")

-C copyright

Copyright string

-V

Verify existing profile, rather than link

-q lmhu

Quality - Low, Medium (def), High, Ultra

-r res

Override clut res. set by -q

-n

Don't preserve device linearization curves in result

-f

Special :- Force neutral colors to be K only output

-fk

Special :- Force K only neutral colors to be K only output

-F

Special :- Force all colors to be K only output

-fcmy

Special :- Force 100% C,M or Y only to stay pure

-p absprof

Include abstract profile in link

-a file.cal

Apply calibration curves to link output and append linear

-H file.cal

Append calibration curves to 3dlut

-s

Simple Mode (default)

-g [src.gam]

Gamut Mapping Mode [optional source image gamut]

-G [src.gam]

Gamut Mapping Mode using inverse outprofile A2B

• Simple Mode Options: -i in_intent p = perceptual, r = relative colorimetric,

• s = saturation, a = absolute colorimetric

-o out_intent

p = perceptual, r = relative colorimetric, s = saturation, a = absolute colorimetric

Gamut Mapping

Mode Options:

-i intent

set linking intent from the following choice:

• a - Absolute Colorimetric (in Jab) [ICC Absolute Colorimetric]

• aw - Absolute Colorimetric (in Jab) with scaling to fit white point aa - Absolute Appearance

• r - White Point Matched Appearance [ICC Relative Colorimetric]

• la - Luminance axis matched Appearance

• p - Perceptual (Preferred) (Default) [ICC Perceptual]

• pa - Perceptual Apperance ms - Saturation

• s - Enhanced Saturation [ICC Saturation]

• al - Absolute Colorimetric (Lab) rl - White Point Matched Colorimetric (Lab)

-w [J,a,b]

Use forced whitepoint hack [optional target point]

-c viewcond

set source viewing conditions for CIECAM02, either an enumerated choice, or a parameter

-d viewcond

set destination viewing conditions for CIECAM02, either an enumerated choice, or parameter:value changes

• pp - Practical Reflection Print (ISO-3664 P2) pe - Print evaluation environment (CIE 116-1995) pc - Critical print evaluation environment (ISO-3664 P1) mt - Monitor in typical work environment mb - Bright monitor in bright work environment md - Monitor in darkened work environment jm - Projector in dim environment jd - Projector in dark environment tv - Television/Film Studio

• pcd - Photo CD - original scene outdoors

• ob - Original scene - Bright Outdoors cx - Cut Sheet Transparencies on a viewing box

s:surround

n = auto, a = average, m = dim, d = dark, c = transparency (default average)

w:X:Y:Z

Adapted white point as XYZ (default media white)

w:x:y

Adapted white point as x, y

a:adaptation

Adaptation luminance in cd.m^2 (default 50.0)

b:background

Background % of image luminance (default 20)

l:imagewhite

Image white in cd.m^2 if surround = auto (default 250)

f:flare

Flare light % of image luminance (default 0)

g:glare

Flare light % of ambient (default 1)

g:X:Y:Z

Flare color as XYZ (default media white, Abs: D50)

g:x:y

Flare color as x, y

-t tlimit

set source total ink limit, 0 - 400% (estimate by default)

-T klimit

set source black ink limit, 0 - 100% (estimate by default)

• Inverse outprofile A2B Options: -k tezhxr CMYK Black generation

• t = transfer K from source to destination, e = retain K of destination B2A table z = zero K, h = 0.5 K, x = maximum K, r = ramp K (default) -k p stle stpo enpo enle shape

• p = black target generation curve parameters -k q stle0 stpo0 enpo0 enle0 shape0 stle2 stpo2 enpo2 enle2 shape2

• q = transfer source K to dual curve limits

-K parameters

Same as -k, but target is K locus rather than K value itself

-l tlimit

set destination total ink limit, 0 - 400% (estimate by default)

-L klimit

set destination black ink limit, 0 - 100% (estimate by default)

-3 flag

Create "3DLut" output file as well as devlink

e

eeColor .txt file

m

MadVR .3dlut file

-I b

Apply BT.1886-like mapping with effective gamma 2.2 to input

-I b:g.g

Apply BT.1886-like mapping with effective gamma g.g to input

-I B

Apply BT.1886 mapping with technical gamma 2.4 to input

-I B:g.g

Apply BT.1886 mapping with technical gamma g.g to input

-e flag

Video encode input as:

-E flag

Video encode output as:

n

normal 0..1 full range RGB levels (default)

t

(16-235)/255 "TV" RGB levels

6

Rec601 YCbCr SD (16-235,240)/255 "TV" levels

7

Rec709 1125/60Hz YCbCr HD (16-235,240)/255 "TV" levels

5

Rec709 1250/50Hz YCbCr HD (16-235,240)/255 "TV" levels

2

Rec2020 YCbCr UHD (16-235,240)/255 "TV" levels

C

Rec2020 Constant Luminance YCbCr UHD (16-235,240)/255 "TV" levels

x

xvYCC Rec601 YCbCr Rec709 Prims. SD (16-235,240)/255 "TV" levels

X

xvYCC Rec709 YCbCr Rec709 Prims. HD (16-235,240)/255 "TV" levels

-P

Create gamut gammap.wrl diagostic