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author | Mattias Andrée <maandree@operamail.com> | 2014-03-19 02:41:29 +0100 |
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committer | Mattias Andrée <maandree@operamail.com> | 2014-03-19 02:41:29 +0100 |
commit | 448c858b5a8307330c2a76d4ebc23ed816a80d0b (patch) | |
tree | 0bef85bed687e9b073ab002a392857d6153b4f9e /examples/textconf | |
parent | edito (diff) | |
download | blueshift-448c858b5a8307330c2a76d4ebc23ed816a80d0b.tar.gz blueshift-448c858b5a8307330c2a76d4ebc23ed816a80d0b.tar.bz2 blueshift-448c858b5a8307330c2a76d4ebc23ed816a80d0b.tar.xz |
document textconf.conf
Signed-off-by: Mattias Andrée <maandree@operamail.com>
Diffstat (limited to '')
-rw-r--r-- | examples/textconf.conf | 219 |
1 files changed, 180 insertions, 39 deletions
diff --git a/examples/textconf.conf b/examples/textconf.conf index a6baf77..8214ff9 100644 --- a/examples/textconf.conf +++ b/examples/textconf.conf @@ -12,55 +12,196 @@ ; Both = (equal sign) and : (colon) are valid key–value delimiters. -[blueshift] +[blueshift] ; General settings and adjustments shared between monitors + +adjustment-method-x = randr ; (default) vidmode is also available +; This is the method used to set and get colour curves for monitors +; when running in X + +adjustment-method-tty = drm ; (default) +; This is the method used to set and get colour curves for monitors +; when running in TTY + +location = 59.3326 18.0652 +; Your geographical location as GPS coordinates in decimal form. If you +; are on the south hemisphere the first value should be negative, if you +; are on the west side of the prime meridian (the Greenwich meridian). +; If you are not sure about your location you probably find it in your +; online phone book or on Wikipedia. +; ("Kristall, vertikal accent i glas och stål" (Crystal, vertical accent +; in glass and steal) in this example. A glas obelisk, lit from the inside +; with adjustable colours and a default colour of 5600 K, in the middle +; of a hyperelliptic roundabout.) + +;location = 59.3326$(locateme | cut d ' ' -f 1) 18.0652$(locateme | cut d ' ' -f 2) +; Just loke above, but use the values as fallback and use the output +; of the command `locateme` primarily. + + +points = solar 3 -6 ; (default) +; Adjustment settings have up to two values, one for when the Sun's +; elevation is above 3° (day) and one for when it is below −6° (night). + +;points = solar -18 -12 -6 0 6 +; Adjustment settings have up to five values that depend on the Sun's +; elevation: at and below −18°, at −12°, at −6°, at 0° and at and above +; 6°. Interpolation of values are used between these points to give nice +; transitions. + +;points = solar -18 0 3 6 reduce +; Adjustment settings have up to two values. When the Sun's elevation is +; at or below −18° the first value is used, when it is at or above 6° the +; second value is used. Between −18° and 6° interpolation is used to give +; nice transitions: at 0° two thirds of the first value and one third of +; the second value is used, and at 3° on third of the first value and two +; thirds of the second value is used. + +;point = time 6:00 10:00 20:00 +; Adjustment settings have up to three values. At 6:00 the first value is +; used, at 10:00 the second value is used and at 20:00 the third value is +; used. Between 6:00 and 10:00 interpolation between first and second +; value is used, between 10:00 and 20:00 interpolation between the second +; and third valu is used, and between 20:00 and 4:00 interpolation between +; the third and first value is used. + +;points = time 6:00 10:00 20:00 reduce +; Adjustment settings have up to two values. At 6:00 the first value is +; used, and at 20:00 the second setting is used. Interpolation is used +; between between 20:00 and 6:00, but between 6:00 and 20:00 interpolation +; is used with the adjustment that both the first and the second value +; is used to 50 % each at 10:00. + +; TODO: the following should be possible +; points = solar -18 (0) 3 (6) 12 reduce +; points = time 6:00 (10:00) 20:00 reduce +; points = time 6:00 (10:00) 20:00 (2:00) reduce + + +; For the following settings you can also add the word ‘linear’, just +; as ‘cie’ can be used on some settings. ‘linear’ (which is supported +; on all adjustments) performs the adjustments in linear RGB colour +; space. ‘cie’ (which is only supported where used in this example) +; performs the adjustments in CIE xyY colour space. ‘linear’ and ‘cie’ +; can be combined but should not be combined as it has no proper meaning. +; Additional, while possible, ‘linear’ should not be used with ‘linear’, +; as that too has no proper meaning. + +; All of this adjustments can have multiple values, but in this example +; only ‘temperature’ uses this. We have set “points = solar 3 -6”, which +; means that the first setting is used during the day and the second is +; used between civil dusk and civil dawn (night). The other settings +; only use one value (in this example) which means that those apply all +; day long. + +; The order of adjustments are made in the order they are listed. which +; means that putting gamma before temperature produces another result +; than putting temperature before gamma. Monitor specific adjustments +; are made after these adjustments. + + temperature = 6500 3600 -contrast = 1 -contrast = 1:1:1 cie -brightness = 1 -brightness = 1:1:1 cie -gamma = 1:1:1 -negative = 1:1:1 -negative = 1 -invert = 1:1:1 -invert = 1:1:1 cie -sigmoid = 4.5 -sigmoid = 4.5:none:4.5 -limits = 0:0:0..1:1:1 -limits = 0:0:0..1:1:1 cie -;icc = -;location = -points = time 0:00 10:00 20:00 reduce -adjustment-method-x = randr -adjustment-method-tty = drm +; 6500 K (neutral) during the day, and 3600 during the night. + +;contrast = 0.5 +; Converge white and black both halfways to 50 % grey. + +;contrast = 1:1:0.5 cie +; Converge white and black both halfways to 50 % grey, +; but only on the blue channel. + +;brightness = 0.75 +; Reduce the brightness of the white colour to 75 % grey. + +;brightness = 1:0.75:1 cie +; Reduce the brightness of the white colour to 75 % grey, +; but only on the green channel. + +;negative = 1 +; Apply a negative image filter, this reverses the +; encoding values. + +;negative = 1:0:0 +; Apply a negative image filter on the red channel. + +;invert = 0:1:1 +; Apply an image inversion filter, this inverts the +; output values. But do not do it on the red channel. + +;invert = 1 cie +; Apply an image inversion filter. + +;sigmoid = 4.5 +; Apply a sigmoid curve (S-curve) correction +; (cancellation) with a multiplier level of 4,5. + +;sigmoid = 4.5:none:4.5 +; Apply a sigmoid curve correction with a multiplier +; level of 4,5, but not on the green channel. + +;gamma = 1.1 +; Apply a gamma filter/correction of level 1,1. + +;gamma = 1.2:1.2:1 +; Apply a gamma filter/correction of level 1,2, +; but not on the blue channel. + +;limits = 0.1..0.9 +; Apply a brightness–contrast correction of 90 % black +; (black is 0; first parameter) and 90 % white (white +; is 1; second parameter) + +;limits = 0:0.1:0.1..1:0.9:0.9 cie +; Apply a brightness–contrast correction of 90 % black +; and 90 % white, but not on the red channel. + +;icc = /home/user/.config/icc/filter +; Apply an ICC profile with the pathname +; /home/user/.config/icc/filter + ; TODO it should be possible to control backlight -[monitor 0] -gamma=1.16:1.15:1.11 default +; Here begins monitor identification and specific +; specifc calibrations/filters for the primary monitor. + + +[monitor 0] ; Adjustment method independent settings for monitor 0 +gamma = 1.16:1.15:1.11 default +; Gamma correction of 1.16 on red, 1.15 on green and 1.11 on blue. +; ‘default’ is used so that this correction is used when at the +; beginning of a transition from a clean state to a state with +; the adjustments in effect, at which time these adjustments will +; still apply. + ; TODO it should be possible to map to a backlight device -[randr] -monitor=0 -crtc=0 -screen=0 +[randr] ; RandR specific information for monitor 0 +monitor=0 ; Include [monitor 0] +crtc=0 ; CRTC 0 +screen=0 ; in screen 0 + +[drm] ; DRM specific information for monitor 0 +monitor=0 ; Include [monitor 0] +crtc=1 ; CRTC 1 +card=0 ; on graphics card 0 + ; TODO it should be possible to use connector name and EDID -[drm] -monitor=0 -crtc=1 -card=0 + +; Here begins monitor identification and specific +; specifc calibrations/filters for the secondary monitor. -[monitor 1] -gamma=1.10:1.16:1.10 default +[monitor 1] ; Adjustment method independent settings for monitor 1 +gamma = 1.10:1.16:1.10 default -[randr] -monitor=1 -crtc=1 -screen=0 +[randr] ; RandR specific information for monitor 1 +monitor=1 ; Include [monitor 1] +crtc=1 ; CRTC 1 +screen=0 ; in screen 0 -[drm] -monitor=1 -crtc=0 -card=0 +[drm] ; DRM specific information for monitor 1 +monitor=1 ; Include [monitor 1] +crtc=0 ; CRTC 0 +card=0 ; on graphics card 0 |