RGB is a color model that defines color by the combination of Red, Green, and Blue. An RGB tuple is composed of three numbers that specify the intensity of each color. Because it uses 8 bits (0s or 1s) for each color, each intensity can be transformed into a hexadecimal number with two digits at most. There are 256 possible shades for each color, since "11111111" (or hex "ff") corresponds to decimal 255, plus the number 000. The combination of all 256 possible shades for the three primary colors gives 256 cubed, or over 16 million possible colors. Write a function that takes a color in RGB or hex and returns the opposite. If it takes in the three integers in an RGB, it should return a string with the equivalent hexadecimal notation, plus a hash sign (#) at the front. If it takes in a string in hex, it should return an array with the three integers corresponding to RGB. Examples rgbHex (150, 50, 76) - "#96324c" // 150 is hex 96, 50 is hex 32 and 76 is hex 4c. rgbHex ("#303749") (48, 55, 73) - // 30 is dec 48, 37 is dec 55 and 49 is dec 73. rgbHex (170, 14, 0) "#aa0e00" // 170 is hex aa, 14 is hex e and 0 is hex 0.
RGB is a color model that defines color by the combination of Red, Green, and Blue. An RGB tuple is composed of three numbers that specify the intensity of each color. Because it uses 8 bits (0s or 1s) for each color, each intensity can be transformed into a hexadecimal number with two digits at most. There are 256 possible shades for each color, since "11111111" (or hex "ff") corresponds to decimal 255, plus the number 000. The combination of all 256 possible shades for the three primary colors gives 256 cubed, or over 16 million possible colors. Write a function that takes a color in RGB or hex and returns the opposite. If it takes in the three integers in an RGB, it should return a string with the equivalent hexadecimal notation, plus a hash sign (#) at the front. If it takes in a string in hex, it should return an array with the three integers corresponding to RGB. Examples rgbHex (150, 50, 76) - "#96324c" // 150 is hex 96, 50 is hex 32 and 76 is hex 4c. rgbHex ("#303749") (48, 55, 73) - // 30 is dec 48, 37 is dec 55 and 49 is dec 73. rgbHex (170, 14, 0) "#aa0e00" // 170 is hex aa, 14 is hex e and 0 is hex 0.
Computer Networking: A Top-Down Approach (7th Edition)
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ISBN:9780133594140
Author:James Kurose, Keith Ross
Publisher:James Kurose, Keith Ross
Chapter1: Computer Networks And The Internet
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Problem R1RQ: What is the difference between a host and an end system? List several different types of end...
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Question
![RGB is a color model that defines color by the combination of Red, Green, and Blue. An RGB
tuple is composed of three numbers that specify the intensity of each color. Because it uses
8 bits (0s or 1s) for each color, each intensity can be transformed into a hexadecimal number
with two digits at most.
There are 256 possible shades for each color, since "11111111" (or hex "ff") corresponds to
decimal 255, plus the number 000. The combination of all 256 possible shades for the three
primary colors gives 256 cubed, or over 16 million possible colors.
Write a function that takes a color in RGB or hex and returns the opposite. If it takes in the
three integers in an RGB, it should return a string with the equivalent hexadecimal notation,
plus a hash sign (#) at the front. If it takes in a string in hex, it should return an array with the
three integers corresponding to RGB.
Examples
rgbHex (150, 50, 76) "#96324c"
// 150 is hex 96, 50 is hex 32 and 76 is hex 4c.
-
rgbHex("#303749") → (48, 55, 73)
// 30 is dec 48, 37 is dec 55 and 49 is dec 73.
rgbHex (170, 14, 0) → "#aa0e00"
// 170 is hex aa, 14 is hex e and 0 is hex 0.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F0241d813-d253-4887-a949-2d7b88b0a188%2F9fda37a9-2777-40cf-ba9e-29f5226a83ab%2Fwu7ilfk_processed.jpeg&w=3840&q=75)
Transcribed Image Text:RGB is a color model that defines color by the combination of Red, Green, and Blue. An RGB
tuple is composed of three numbers that specify the intensity of each color. Because it uses
8 bits (0s or 1s) for each color, each intensity can be transformed into a hexadecimal number
with two digits at most.
There are 256 possible shades for each color, since "11111111" (or hex "ff") corresponds to
decimal 255, plus the number 000. The combination of all 256 possible shades for the three
primary colors gives 256 cubed, or over 16 million possible colors.
Write a function that takes a color in RGB or hex and returns the opposite. If it takes in the
three integers in an RGB, it should return a string with the equivalent hexadecimal notation,
plus a hash sign (#) at the front. If it takes in a string in hex, it should return an array with the
three integers corresponding to RGB.
Examples
rgbHex (150, 50, 76) "#96324c"
// 150 is hex 96, 50 is hex 32 and 76 is hex 4c.
-
rgbHex("#303749") → (48, 55, 73)
// 30 is dec 48, 37 is dec 55 and 49 is dec 73.
rgbHex (170, 14, 0) → "#aa0e00"
// 170 is hex aa, 14 is hex e and 0 is hex 0.
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