package kha; /** * A 32 bit ARGB color value which is represented as an Integer. */ enum abstract Color(Int) from Int from UInt to Int to UInt { var Black = 0xff000000; var White = 0xffffffff; var Red = 0xffff0000; var Blue = 0xff0000ff; var Green = 0xff00ff00; var Magenta = 0xffff00ff; var Yellow = 0xffffff00; var Cyan = 0xff00ffff; var Purple = 0xff800080; var Pink = 0xffffc0cb; var Orange = 0xffffa500; var Transparent = 0x00000000; static inline var invMaxChannelValue: FastFloat = 1 / 255; /** * Creates a new Color object from a packed 32 bit ARGB value. */ public static inline function fromValue(value: Int): Color { return new Color(value); } /** * Creates a new Color object from components in the range 0 - 255. */ public static function fromBytes(r: Int, g: Int, b: Int, a: Int = 255): Color { return new Color((a << 24) | (r << 16) | (g << 8) | b); } /** * Creates a new Color object from components in the range 0 - 1. */ public static function fromFloats(r: FastFloat, g: FastFloat, b: FastFloat, a: FastFloat = 1): Color { return new Color((Std.int(a * 255) << 24) | (Std.int(r * 255) << 16) | (Std.int(g * 255) << 8) | Std.int(b * 255)); } /** * Creates a new Color object from an HTML style `#AARRGGBB` / `#RRGGBB` / `#RGB` strings. */ public static function fromString(value: String) { if (!(value.length == 4 || value.length == 7 || value.length == 9) || StringTools.fastCodeAt(value, 0) != "#".code) { throw 'Invalid Color string: $value'; } if (value.length == 4) { final r = value.charAt(1); final g = value.charAt(2); final b = value.charAt(3); value = '#$r$r$g$g$b$b'; } var colorValue = Std.parseInt("0x" + value.substr(1)); if (value.length == 7) { colorValue += 0xFF000000; } return fromValue(colorValue | 0); } /** * Contains a byte representing the red color component. */ public var Rb(get, set): Int; /** * Contains a byte representing the green color component. */ public var Gb(get, set): Int; /** * Contains a byte representing the blue color component. */ public var Bb(get, set): Int; /** * Contains a byte representing the alpha color component (more exactly the opacity component - a value of 0 is fully transparent). */ public var Ab(get, set): Int; /** * Contains a float representing the red color component. */ public var R(get, set): FastFloat; /** * Contains a float representing the green color component. */ public var G(get, set): FastFloat; /** * Contains a float representing the blue color component. */ public var B(get, set): FastFloat; /** * Contains a float representing the alpha color component (more exactly the opacity component - a value of 0 is fully transparent). */ public var A(get, set): FastFloat; function new(value: Int) { this = value; } /** * Return this Color instance as Int. */ public var value(get, set): Int; inline function get_value(): Int { return this; } inline function set_value(value: Int): Int { this = value; return this; } inline function get_Rb(): Int { return (this & 0x00ff0000) >>> 16; } inline function get_Gb(): Int { return (this & 0x0000ff00) >>> 8; } inline function get_Bb(): Int { return this & 0x000000ff; } inline function get_Ab(): Int { return this >>> 24; } inline function set_Rb(i: Int): Int { this = (Ab << 24) | (i << 16) | (Gb << 8) | Bb; return i; } inline function set_Gb(i: Int): Int { this = (Ab << 24) | (Rb << 16) | (i << 8) | Bb; return i; } inline function set_Bb(i: Int): Int { this = (Ab << 24) | (Rb << 16) | (Gb << 8) | i; return i; } inline function set_Ab(i: Int): Int { this = (i << 24) | (Rb << 16) | (Gb << 8) | Bb; return i; } inline function get_R(): FastFloat { return get_Rb() * invMaxChannelValue; } inline function get_G(): FastFloat { return get_Gb() * invMaxChannelValue; } inline function get_B(): FastFloat { return get_Bb() * invMaxChannelValue; } inline function get_A(): FastFloat { return get_Ab() * invMaxChannelValue; } inline function set_R(f: FastFloat): FastFloat { this = (Std.int(A * 255) << 24) | (Std.int(f * 255) << 16) | (Std.int(G * 255) << 8) | Std.int(B * 255); return f; } inline function set_G(f: FastFloat): FastFloat { this = (Std.int(A * 255) << 24) | (Std.int(R * 255) << 16) | (Std.int(f * 255) << 8) | Std.int(B * 255); return f; } inline function set_B(f: FastFloat): FastFloat { this = (Std.int(A * 255) << 24) | (Std.int(R * 255) << 16) | (Std.int(G * 255) << 8) | Std.int(f * 255); return f; } inline function set_A(f: FastFloat): FastFloat { this = (Std.int(f * 255) << 24) | (Std.int(R * 255) << 16) | (Std.int(G * 255) << 8) | Std.int(B * 255); return f; } }