Conversion de la couleur hexadécimale en RVB et inversement
https://stackoverflow.com/questions/214359
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Quel est le moyen le plus efficace de le faire?
La solution
Réponse réelle: Cela dépend du type de valeur de couleur hexadécimale que vous recherchez (par exemple, 565, 555, 888, 8888, etc.), de la quantité de bits alpha, de la distribution de couleur réelle (rgb vs bgr ...) et une tonne d'autres variables.
Voici un algorithme générique pour la plupart des valeurs RVB utilisant des modèles C ++ (directement de ScummVM).
template<class T>
uint32 RGBToColor(uint8 r, uint8 g, uint8 b) {
return T::kAlphaMask |
(((r << T::kRedShift) >> (8 - T::kRedBits)) & T::kRedMask) |
(((g << T::kGreenShift) >> (8 - T::kGreenBits)) & T::kGreenMask) |
(((b << T::kBlueShift) >> (8 - T::kBlueBits)) & T::kBlueMask);
}
Voici un exemple de structure de couleur pour 565 (format standard pour les couleurs 16 bits):
template<>
struct ColorMasks<565> {
enum {
highBits = 0xF7DEF7DE,
lowBits = 0x08210821,
qhighBits = 0xE79CE79C,
qlowBits = 0x18631863,
kBytesPerPixel = 2,
kAlphaBits = 0,
kRedBits = 5,
kGreenBits = 6,
kBlueBits = 5,
kAlphaShift = kRedBits+kGreenBits+kBlueBits,
kRedShift = kGreenBits+kBlueBits,
kGreenShift = kBlueBits,
kBlueShift = 0,
kAlphaMask = ((1 << kAlphaBits) - 1) << kAlphaShift,
kRedMask = ((1 << kRedBits) - 1) << kRedShift,
kGreenMask = ((1 << kGreenBits) - 1) << kGreenShift,
kBlueMask = ((1 << kBlueBits) - 1) << kBlueShift,
kRedBlueMask = kRedMask | kBlueMask
};
};
Autres conseils
En python:
def hex_to_rgb(value):
"""Return (red, green, blue) for the color given as #rrggbb."""
value = value.lstrip('#')
lv = len(value)
return tuple(int(value[i:i + lv // 3], 16) for i in range(0, lv, lv // 3))
def rgb_to_hex(red, green, blue):
"""Return color as #rrggbb for the given color values."""
return '#%02x%02x%02x' % (red, green, blue)
hex_to_rgb("#ffffff") #==> (255, 255, 255)
hex_to_rgb("#ffffffffffff") #==> (65535, 65535, 65535)
rgb_to_hex(255, 255, 255) #==> '#ffffff'
rgb_to_hex(65535, 65535, 65535) #==> '#ffffffffffff'
En python, la conversion entre hex et 'rgb' est également incluse dans le package de traçage matplotlib . À savoir
import matplotlib.colors as colors
Alors
colors.hex2color('#ffffff') #==> (1.0, 1.0, 1.0)
colors.rgb2hex((1.0, 1.0, 1.0)) #==> '#ffffff'
L’avertissement est que les valeurs de RVB dans les couleurs sont supposées être comprises entre 0,0 et 1,0. Si vous voulez aller entre 0 et 255 vous devez faire une petite conversion. Plus précisément,
def hex_to_rgb(hex_string):
rgb = colors.hex2color(hex_string)
return tuple([int(255*x) for x in rgb])
def rgb_to_hex(rgb_tuple):
return colors.rgb2hex([1.0*x/255 for x in rgb_tuple])
L'autre remarque est que colors.hex2color n'accepte que les chaînes de couleur hexadécimales valides.
juste très vite:
int r = ( hexcolor >> 16 ) & 0xFF;
int g = ( hexcolor >> 8 ) & 0xFF;
int b = hexcolor & 0xFF;
int hexcolor = (r << 16) + (g << 8) + b;
Modification de la réponse en python de Jeremy pour gérer les valeurs rgb CSS courtes telles que 0, # 999 et #fff (les navigateurs seraient affichés en noir, gris moyen et blanc):
def hex_to_rgb(value):
value = value.lstrip('#')
lv = len(value)
if lv == 1:
v = int(value, 16)*17
return v, v, v
if lv == 3:
return tuple(int(value[i:i+1], 16)*17 for i in range(0, 3))
return tuple(int(value[i:i+lv/3], 16) for i in range(0, lv, lv/3))
Une valeur hexadécimale est constituée uniquement de nombres RVB représentés en hexadécimal. Il suffit donc de prendre chaque paire de chiffres hexadécimaux et de les convertir en nombres décimaux.
Exemple:
#FF6400 = RGB(0xFF, 0x64, 0x00) = RGB(255, 100, 0)
Il suffit de convertir une valeur hexadécimale (en parties) en décimale et inversement. Il faut également prendre en compte la valeur hexadécimale pouvant contenir 6 ou 3 caractères (sans le caractère '#').
Implémentation sur Python 3.5
"""Utils for working with colors."""
import textwrap
def rgb_to_hex(value1, value2, value3):
"""
Convert RGB value (as three numbers each ranges from 0 to 255) to hex format.
>>> rgb_to_hex(235, 244, 66)
'#EBF442'
>>> rgb_to_hex(56, 28, 26)
'#381C1A'
>>> rgb_to_hex(255, 255, 255)
'#FFFFFF'
>>> rgb_to_hex(0, 0, 0)
'#000000'
>>> rgb_to_hex(203, 244, 66)
'#CBF442'
>>> rgb_to_hex(53, 17, 8)
'#351108'
"""
for value in (value1, value2, value3):
if not 0 <= value <= 255:
raise ValueError('Value each slider must be ranges from 0 to 255')
return '#{0:02X}{1:02X}{2:02X}'.format(value1, value2, value3)
def hex_to_rgb(value):
"""
Convert color`s value in hex format to RGB format.
>>> hex_to_rgb('fff')
(255, 255, 255)
>>> hex_to_rgb('ffffff')
(255, 255, 255)
>>> hex_to_rgb('#EBF442')
(235, 244, 66)
>>> hex_to_rgb('#000000')
(0, 0, 0)
>>> hex_to_rgb('#000')
(0, 0, 0)
>>> hex_to_rgb('#54433f')
(84, 67, 63)
>>> hex_to_rgb('#f7efed')
(247, 239, 237)
>>> hex_to_rgb('#191616')
(25, 22, 22)
"""
if value[0] == '#':
value = value[1:]
len_value = len(value)
if len_value not in [3, 6]:
raise ValueError('Incorect a value hex {}'.format(value))
if len_value == 3:
value = ''.join(i * 2 for i in value)
return tuple(int(i, 16) for i in textwrap.wrap(value, 2))
if __name__ == '__main__':
import doctest
doctest.testmod()
Implémentation sur JavaScript (adaptée au NodeJS avec support ES6)
const assert = require('assert');
/**
* Return a color`s value in the hex format by passed the RGB format.
* @param {integer} value1 An value in ranges from 0 to 255
* @param {integer} value2 An value in ranges from 0 to 255
* @param {integer} value3 An value in ranges from 0 to 255
* @return {string} A color`s value in the hex format
*/
const RGBtoHex = (value1, value2, value3) => {
const values = [value1, value2, value3];
let result = '#';
for (let i = 0; i < 3; i += 1) {
// validation input
if (values[i] < 0 || values[i] > 255) throw new Error('An each value of RGB format must be ranges from 0 to 255');
// append to result values as hex with at least width 2
result += (('0' + values[i].toString(16)).slice(-2));
}
return result.toUpperCase();
};
/**
* Convert a value from the hex format to RGB and return as an array
* @param {int} value A color`s value in the hex format
* @return {array} Array values of the RGB format
*/
const hexToRGB = (value) => {
let val = value;
val = (value[0] === '#') ? value.slice(1) : value;
if ([3, 6].indexOf(val.length) === -1) throw new Error(`Incorect a value of the hex format: ${value}`);
if (val.length === 3) val = val.split('').map(item => item.repeat(2)).join('');
return val.match(/.{2}/g).map(item => parseInt(`0x${item}`, 16));
};
assert.deepEqual(hexToRGB('fff'), [255, 255, 255]);
assert.deepEqual(hexToRGB('#fff'), [255, 255, 255]);
assert.deepEqual(hexToRGB('#000000'), [0, 0, 0]);
assert.deepEqual(hexToRGB('000000'), [0, 0, 0]);
assert.deepEqual(hexToRGB('#d7dee8'), [215, 222, 232]);
assert.deepEqual(hexToRGB('#1E2F49'), [30, 47, 73]);
assert.deepEqual(hexToRGB('#030914'), [3, 9, 20]);
assert.equal(RGBtoHex(255, 255, 255), '#FFFFFF');
assert.equal(RGBtoHex(0, 0, 0), '#000000');
assert.equal(RGBtoHex(96, 102, 112), '#606670');
assert.equal(RGBtoHex(199, 204, 214), '#C7CCD6');
assert.equal(RGBtoHex(22, 99, 224), '#1663E0');
assert.equal(RGBtoHex(0, 8, 20), '#000814');
module.exports.RGBtoHex = RGBtoHex;
module.exports.hexToRGB = hexToRGB;
Mise en œuvre sur le C (destiné au standard C11)
// a type for a struct of RGB color
typedef struct _ColorRGB {
unsigned short int red;
unsigned short int green;
unsigned short int blue;
} colorRGB_t;
/*
Convert a color`s value from the hex format to the RGB.
Return -1 if a passed value in the hex format is not correct, otherwise - return 0;
*/
static int
convertColorHexToRGB(const char originValue[], colorRGB_t *colorRGB) {
// a full value of color in hex format must constains 6 charapters
char completedValue[6];
size_t lenOriginValue;
size_t lenCompletedValue;
// an intermediary variable for keeping value in the hex format
char hexSingleValue[3];
// a temp pointer to char, need only to the strtol()
char *ptr;
// a variable for keeping a converted number in the hex to the decimal format
long int number;
// validation input
lenOriginValue = strlen(originValue);
if (lenOriginValue > 7 || lenOriginValue < 3) return -1;
// copy value without sign '#', if found as first in the string
(originValue[0] == '#') ? strcpy(completedValue, originValue + 1) : strcpy(completedValue, originValue);
lenCompletedValue = strlen(completedValue);
// if the value has only 3 charapters, dublicate an each after itself
// but if not full version of the hex name of a color (6 charapters), return -1
if (lenCompletedValue == 3) {
completedValue[5] = completedValue[2];
completedValue[4] = completedValue[2];
completedValue[3] = completedValue[1];
completedValue[2] = completedValue[1];
completedValue[1] = completedValue[0];
} else if (lenCompletedValue != 6) return -1;
// convert string, by parts, to decimal values and keep it in a struct
sprintf(hexSingleValue, "%c%c", completedValue[0], completedValue[1]);
number = strtol(hexSingleValue, &ptr, 16);
colorRGB->red = number;
sprintf(hexSingleValue, "%c%c", completedValue[2], completedValue[3]);
number = strtol(hexSingleValue, &ptr, 16);
colorRGB->green = number;
sprintf(hexSingleValue, "%c%c", completedValue[4], completedValue[5]);
number = strtol(hexSingleValue, &ptr, 16);
colorRGB->blue = number;
return 0;
}
/*
Convert a color`s value from the RGB format to the hex
*/
static int
convertColorRGBToHex(const colorRGB_t *colorRGB, char value[8]) {
sprintf(value, "#%02X%02X%02X", colorRGB->red, colorRGB->green, colorRGB->blue);
return 0;
}
/*
Forming a string representation data in an instance of the structure colorRGB_t
*/
static int
getRGBasString(const colorRGB_t *colorRGB, char str[18]) {
sprintf(str, "rgb(%d, %d, %d)", colorRGB->red, colorRGB->green, colorRGB->blue);
return 0;
}
int main (int argv, char **argc)
{
char str[18];
char hex[8];
colorRGB_t *colorRGB_;
colorRGB_ = (colorRGB_t *)malloc(sizeof(colorRGB_));
convertColorHexToRGB("fff", colorRGB_);
getRGBasString(colorRGB_, str);
printf("Hex 'fff' to RGB %s\n", str);
convertColorRGBToHex(colorRGB_, hex);
printf("RGB %s to hex '%s'\n", str, hex);
convertColorHexToRGB("000000", colorRGB_);
getRGBasString(colorRGB_, str);
printf("Hex '000000' to RGB %s\n", str);
convertColorRGBToHex(colorRGB_, hex);
printf("RGB %s to hex '%s'\n", str, hex);
convertColorHexToRGB("#000000", colorRGB_);
getRGBasString(colorRGB_, str);
printf("Hex '#000000' to RGB %s\n", str);
convertColorRGBToHex(colorRGB_, hex);
printf("RGB %s to hex '%s'\n", str, hex);
convertColorHexToRGB("#FFF", colorRGB_);
getRGBasString(colorRGB_, str);
printf("Hex '#FFF' to RGB %s\n", str);
convertColorRGBToHex(colorRGB_, hex);
printf("RGB %s to hex '%s'\n", str, hex);
free(colorRGB_);
}
Un résultat après compilation (je suis un habitué du GCC)
Hex 'fff' to RGB rgb(255, 255, 255)
RGB rgb(255, 255, 255) to hex '#FFFFFF'
Hex '000000' to RGB rgb(0, 0, 0)
RGB rgb(0, 0, 0) to hex '#000000'
Hex '#000000' to RGB rgb(0, 0, 0)
RGB rgb(0, 0, 0) to hex '#000000'
Hex '#FFF' to RGB rgb(255, 255, 255)
RGB rgb(255, 255, 255) to hex '#FFFFFF'
#!/usr/bin/env python
import re
import sys
def hex_to_rgb(value):
value = value.lstrip('#')
lv = len(value)
return tuple(int(value[i:i+lv/3], 16) for i in range(0, lv, lv/3))
def rgb_to_hex(rgb):
rgb = eval(rgb)
r = rgb[0]
g = rgb[1]
b = rgb[2]
return '#%02X%02X%02X' % (r,g,b)
def main():
color = raw_input("HEX [#FFFFFF] or RGB [255, 255, 255] value (no value quits program): ")
while color:
if re.search('\#[a-fA-F0-9][a-fA-F0-9][a-fA-F0-9][a-fA-F0-9][a-fA-F0-9][a-fA-F0-9]', color):
converted = hex_to_rgb(color)
print converted
elif re.search('[0-9]{1,3}, [0-9]{1,3}, [0-9]{1,3}', color):
converted = rgb_to_hex(color)
print converted
elif color == '':
sys.exit(0)
else:
print 'You didn\'t enter a valid value!'
color = raw_input("HEX [#FFFFFF] or RGB [255, 255, 255] value (no value quits program): ")
if __name__ == '__main__':
main()
Il s'agit d'un fragment de code que j'ai créé pour mon propre usage dans c ++ 11. vous pouvez envoyer des valeurs hexadécimales ou des chaînes:
void Color::SetColor(string color) {
// try catch will be necessary if your string is not sanitized before calling this function.
SetColor(std::stoul(color, nullptr, 16));
}
void Color::SetColor(uint32_t number) {
B = number & 0xFF;
number>>= 8;
G = number & 0xFF;
number>>= 8;
R = number & 0xFF;
}
// ex:
SetColor("ffffff");
SetColor(0xFFFFFF);
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