dispread -V (return code: 1)
Read a Display, Version 1.8.3
Author: Graeme W. Gill, licensed under the AGPL Version 3
Diagnostic: Usage requested
usage: dispread [options] outfile
-v Verbose mode
-display displayname Choose X11 display name
-d n[,m] Choose the display n from the following list (default 1)
Optionally choose different display m for VideoLUT access
** No displays found **
-dweb[:port] Display via a web server at port (default 8080)
-dcc[:n] Display via n'th ChromeCast (default 1, ? for list)
-c listno Set communication port from the following list (default 1)
1 = '/dev/ttyS0'
2 = '/dev/ttyS1'
3 = '/dev/ttyS10'
4 = '/dev/ttyS11'
5 = '/dev/ttyS12'
6 = '/dev/ttyS13'
7 = '/dev/ttyS14'
8 = '/dev/ttyS15'
9 = '/dev/ttyS16'
10 = '/dev/ttyS17'
11 = '/dev/ttyS18'
12 = '/dev/ttyS19'
13 = '/dev/ttyS2'
14 = '/dev/ttyS20'
15 = '/dev/ttyS21'
16 = '/dev/ttyS22'
17 = '/dev/ttyS23'
18 = '/dev/ttyS24'
19 = '/dev/ttyS25'
20 = '/dev/ttyS26'
21 = '/dev/ttyS27'
22 = '/dev/ttyS28'
23 = '/dev/ttyS29'
24 = '/dev/ttyS3'
25 = '/dev/ttyS30'
26 = '/dev/ttyS31'
27 = '/dev/ttyS4'
28 = '/dev/ttyS5'
29 = '/dev/ttyS6'
30 = '/dev/ttyS7'
31 = '/dev/ttyS8'
32 = '/dev/ttyS9'
-p Use telephoto mode (ie. for a projector) (if available)
-y l|c Other: l = LCD, c = CRT
-k file.cal Load calibration file into display while reading
-K file.cal Apply calibration file to test values while reading
-s Save spectral information (default don't save)
-P ho,vo,ss[,vs] Position test window and scale it
ho,vi: 0.0 = left/top, 0.5 = center, 1.0 = right/bottom etc.
ss: 0.5 = half, 1.0 = normal, 2.0 = double etc.
-F Fill whole screen with black background
-n Don't set override redirect on test window
-E Encode the test values for video range 16..235/255
-Z nbits Quantize test values to fit in nbits
-J Run instrument calibration first (used rarely)
-N Disable initial calibration of instrument if possible
-H Use high resolution spectrum mode (if available)
-w Disable normalisation of white to Y = 100
-X file.ccmx Apply Colorimeter Correction Matrix
-X file.ccss Use Colorimeter Calibration Spectral Samples for calibration
-Q observ Choose CIE Observer for spectrometer or CCSS colorimeter data:
1931_2 (def), 1964_10, S&B 1955_2, shaw, J&V 1978_2, 1964_10c
-I b|w Drift compensation, Black: -Ib, White: -Iw, Both: -Ibw
-Y R:rate Override measured refresh rate with rate Hz
-Y A Use non-adaptive integration time mode (if available).
-Y p Don't wait for the instrument to be placed on the display
-C "command" Invoke shell "command" each time a color is set
-M "command" Invoke shell "command" each time a color is measured
-x x Take manually entered XYZ values
-W n|h|x Override serial port flow control: n = none, h = HW, x = Xon/Xoff
-D [level] Print debug diagnostics to stderr
outfile Base name for input[ti1]/output[ti3] file
dispread -HELP (return code: 1)
Read a Display, Version 1.8.3
Author: Graeme W. Gill, licensed under the AGPL Version 3
Diagnostic: Usage requested
usage: dispread [options] outfile
-v Verbose mode
-display displayname Choose X11 display name
-d n[,m] Choose the display n from the following list (default 1)
Optionally choose different display m for VideoLUT access
** No displays found **
-dweb[:port] Display via a web server at port (default 8080)
-dcc[:n] Display via n'th ChromeCast (default 1, ? for list)
-c listno Set communication port from the following list (default 1)
1 = '/dev/ttyS0'
2 = '/dev/ttyS1'
3 = '/dev/ttyS10'
4 = '/dev/ttyS11'
5 = '/dev/ttyS12'
6 = '/dev/ttyS13'
7 = '/dev/ttyS14'
8 = '/dev/ttyS15'
9 = '/dev/ttyS16'
10 = '/dev/ttyS17'
11 = '/dev/ttyS18'
12 = '/dev/ttyS19'
13 = '/dev/ttyS2'
14 = '/dev/ttyS20'
15 = '/dev/ttyS21'
16 = '/dev/ttyS22'
17 = '/dev/ttyS23'
18 = '/dev/ttyS24'
19 = '/dev/ttyS25'
20 = '/dev/ttyS26'
21 = '/dev/ttyS27'
22 = '/dev/ttyS28'
23 = '/dev/ttyS29'
24 = '/dev/ttyS3'
25 = '/dev/ttyS30'
26 = '/dev/ttyS31'
27 = '/dev/ttyS4'
28 = '/dev/ttyS5'
29 = '/dev/ttyS6'
30 = '/dev/ttyS7'
31 = '/dev/ttyS8'
32 = '/dev/ttyS9'
-p Use telephoto mode (ie. for a projector) (if available)
-y l|c Other: l = LCD, c = CRT
-k file.cal Load calibration file into display while reading
-K file.cal Apply calibration file to test values while reading
-s Save spectral information (default don't save)
-P ho,vo,ss[,vs] Position test window and scale it
ho,vi: 0.0 = left/top, 0.5 = center, 1.0 = right/bottom etc.
ss: 0.5 = half, 1.0 = normal, 2.0 = double etc.
-F Fill whole screen with black background
-n Don't set override redirect on test window
-E Encode the test values for video range 16..235/255
-Z nbits Quantize test values to fit in nbits
-J Run instrument calibration first (used rarely)
-N Disable initial calibration of instrument if possible
-H Use high resolution spectrum mode (if available)
-w Disable normalisation of white to Y = 100
-X file.ccmx Apply Colorimeter Correction Matrix
-X file.ccss Use Colorimeter Calibration Spectral Samples for calibration
-Q observ Choose CIE Observer for spectrometer or CCSS colorimeter data:
1931_2 (def), 1964_10, S&B 1955_2, shaw, J&V 1978_2, 1964_10c
-I b|w Drift compensation, Black: -Ib, White: -Iw, Both: -Ibw
-Y R:rate Override measured refresh rate with rate Hz
-Y A Use non-adaptive integration time mode (if available).
-Y p Don't wait for the instrument to be placed on the display
-C "command" Invoke shell "command" each time a color is set
-M "command" Invoke shell "command" each time a color is measured
-x x Take manually entered XYZ values
-W n|h|x Override serial port flow control: n = none, h = HW, x = Xon/Xoff
-D [level] Print debug diagnostics to stderr
outfile Base name for input[ti1]/output[ti3] file