More light and less saturated is more pale, whiter as needed for dark mode. Let’s take one of the IP addresses 192.1.1.1 as an example to describe the properties of this IP: 192. This IP address list contains 256 256 256 16,777,216 IP addresses. I think these two changes will be good enough. This is the list of IP addresses where the first byte is 192, the second byte is between 0 - 255, and the third and fourth bytes can be changed (the asterisk below), expressed as 192. Now another suggestion: Either keep saturation unchanged (which may be too dark) or make some calculations also for saturation (for example S1=0.7*S). Don't forget that users can easy make proper colors brighter on their own but they can't easy revert white to the proper color. Any wider range below 10000 (for example 7000…9500) is better than 8000…10000 – color distortion will be less noticeable. If you want to simply modify existing formulas, don't allow results > 10000 - they lead to irreversible loss of color. If you have a better idea, please let me know. It looks like TC bumps colors to a certain level rather than calculate some mean value. Yes, but imagine two similar colors with visible difference in normal mode (for example for files with compressed attribute and for archives) which go almost the same in dark mode - it's wrong. A subnet mask As a subnet mask it is represented as a /32 in the CIDR notation. It has two purposes primarily which are : 1. You may say "I can't see no difference in normal mode, they are already almost the same". Answer (1 of 5): 255.255.255.255 is an ipv4 address also termed a broadcast address. They are darker and they have different brightness in normal mode, yet similar colors go the same in dark mode. Now observe the last two types (orange1 and orange2). I suspect that TC simply ignores base "Font color" settings for normal mode and blindly bumps values for other colors which are obviously related to the base color.Ģ. You must remember color settings for normal mode to properly change respective values for dark mode. You can test other colors - any color with Brightness>=160 will go white. The RGB color 205, 255, 255 is a light color, and the websafe version is hex CCFFFF.A complement of this color would be 230, 230, 230, and the grayscale version is 240, 240, 240. As you can see on the first 6 types (from magenta to orange), all colors bright in normal mode go white in dark mode. mediumblue rgb(0, 0, 205), blue(Safe 16 Hex3) rgb(0, 0, 255), darkgreen rgb(0, 100, 0). Now click "DarkNormal" button and check new colors automatically calculated by TC for dark mode. Input provided RGB values and notice resulting Brightness values. Code: Select all Filetype R G B Bright DarkMode