Man page - fakeread(1)
Packages contas this manual
- applycal(1)
- illumread(1)
- ls2ti3(1)
- spec2cie(1)
- extracticc(1)
- revfix(1)
- collink(1)
- refine(1)
- greytiff(1)
- chartread(1)
- specplot(1)
- tiffgamut(1)
- scanin(1)
- fakeread(1)
- viewgam(1)
- oeminst(1)
- synthread(1)
- invprofcheck(1)
- mppcheck(1)
- profcheck(1)
- xicclu(1)
- colprof(1)
- synthcal(1)
- txt2ti3(1)
- cb2ti3(1)
- mpplu(1)
- spotread(1)
- splitti3(1)
- icclu(1)
- colverify(1)
- cctiff(1)
- mppprof(1)
- dispread(1)
- extractttag(1)
- targen(1)
- printcal(1)
- cxf2ti3(1)
- dispwin(1)
- ccxxmake(1)
- dispcal(1)
- iccgamut(1)
- printtarg(1)
- timage(1)
- average(1)
- iccdump(1)
- kodak2ti3(1)
Package: argyll
apt-get install argyll
apt-get install argyll
Manuals in package:
Documentations in package:
Manual
| FAKE(1) | User Commands | FAKE(1) |
NAME
Fake - Fake test chart reader - lookup values in ICC/MPP profile.
DESCRIPTION
Fake test chart reader - lookup values in ICC/MPP profile
SYNOPSIS
fakeread [-options] profile.[icc|mpp|ti3] outfile
- -v [n]
- Verbose mode [level]
- -e flag
- Video encode device input to sepration 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
-p separation.icc Use device link separation profile on input
- -E flag
- Video decode separation device output. See -e above
- -k file.cal
- Apply calibration (include in .ti3 output)
- -i file.cal
- Include calibration in .ti3 output, but don't apply it
- -K file.cal
- Apply inverse calibration
- -r level
- Add average random deviation of <level>% to device values (after sep. & cal.)
- -0 pow
- Apply power to device chanel 0-9
- -b output.icc
- Apply BT.1886-like mapping with effective gamma 2.2
-b g.g:output.icc Apply BT.1886-like mapping with effective gamma g.g
- -B output.icc
- Apply BT.1886 mapping with technical gamma 2.4
-B g.g:output.icc Apply BT.1886 mapping with technical gamma g.g
- -I intent
- r = relative colorimetric, a = absolute (default)
- -A L,a,b
- Scale black point to target Lab value
- -l
- Output Lab rather than XYZ
- -s
- Lookup MPP spectral values
- -R level
- Add average random deviation of <level>% to output PCS values
- -u
- Make random deviations have uniform distributions rather than normal
- -S seed
- Set random seed
- profile.[icc|mpp|ti3] ICC, MPP profile or TI3 to use outfile Base name for input[ti1]/output[ti3] file
| September 2014 | fakeread |