#ifndef RAYLIB_CPP_INCLUDE_COLOR_HPP_ #define RAYLIB_CPP_INCLUDE_COLOR_HPP_ #include #include "./Vector4.hpp" #include "./raylib-cpp-utils.hpp" #include "./raylib.hpp" namespace raylib { /** * Color type, RGBA (32bit) */ class Color : public ::Color { public: Color(const ::Color& color) : ::Color{color.r, color.g, color.b, color.a} {} Color(unsigned char red, unsigned char green, unsigned char blue, unsigned char alpha = 255) : ::Color{red, green, blue, alpha} {}; /** * Black. */ Color() : ::Color{0, 0, 0, 255} {}; /** * Returns a Color from HSV values */ Color(::Vector3 hsv) { set(::ColorFromHSV(hsv.x, hsv.y, hsv.z)); } /** * Returns a Color from HSV values */ static ::Color FromHSV(float hue, float saturation, float value) { return ::ColorFromHSV(hue, saturation, value); } /** * Get Color structure from hexadecimal value */ explicit Color(unsigned int hexValue) : ::Color(::GetColor(hexValue)) { } Color(void* srcPtr, int format) : ::Color(::GetPixelColor(srcPtr, format)) { } /** * Returns hexadecimal value for a Color */ [[nodiscard]] int ToInt() const { return ::ColorToInt(*this); } /** * Returns hexadecimal value for a Color */ explicit operator int() const { return ::ColorToInt(*this); } [[nodiscard]] std::string ToString() const { return TextFormat("Color(%d, %d, %d, %d)", r, g, b, a); } explicit operator std::string() const { return ToString(); } /** * Returns color with alpha applied, alpha goes from 0.0f to 1.0f */ [[nodiscard]] Color Fade(float alpha) const { return ::Fade(*this, alpha); } /** * Returns Color normalized as float [0..1] */ [[nodiscard]] Vector4 Normalize() const { return ::ColorNormalize(*this); } /** * Returns Color from normalized values [0..1] */ explicit Color(::Vector4 normalized) : Color(::ColorFromNormalized(normalized)) { } /** * Returns HSV values for a Color */ [[nodiscard]] Vector3 ToHSV() const { return ::ColorToHSV(*this); } GETTERSETTER(unsigned char, R, r) GETTERSETTER(unsigned char, G, g) GETTERSETTER(unsigned char, B, b) GETTERSETTER(unsigned char, A, a) Color& operator=(const ::Color& color) { set(color); return *this; } /** * Set background color (framebuffer clear color) */ Color& ClearBackground() { ::ClearBackground(*this); return *this; } void DrawPixel(int x, int y) const { ::DrawPixel(x, y, *this); } /** * Draw a pixel */ void DrawPixel(::Vector2 pos) const { ::DrawPixelV(pos, *this); } /** * Draw a line */ void DrawLine(int startPosX, int startPosY, int endPosX, int endPosY) const { ::DrawLine(startPosX, startPosY, endPosX, endPosY, *this); } /** * Draw a line using Vector points */ void DrawLine(::Vector2 startPos, ::Vector2 endPos) const { ::DrawLineV(startPos, endPos, *this); } /** * Draw a line using Vector points, with a given thickness */ void DrawLine(::Vector2 startPos, ::Vector2 endPos, float thick) const { ::DrawLineEx(startPos, endPos, thick, *this); } void DrawLineBezier(::Vector2 startPos, ::Vector2 endPos, float thick = 1.0f) const { ::DrawLineBezier(startPos, endPos, thick, *this); } void DrawLineStrip(::Vector2* points, int numPoints) const { ::DrawLineStrip(points, numPoints, *this); } void DrawText(const char* text, int posX = 0, int posY = 0, int fontSize = 10.0f) const { ::DrawText(text, posX, posY, fontSize, *this); } void DrawText(const std::string& text, int posX = 0, int posY = 0, int fontSize = 10.0f) const { ::DrawText(text.c_str(), posX, posY, fontSize, *this); } void DrawText(const ::Font& font, const char* text, ::Vector2 position, float fontSize, float spacing) const { ::DrawTextEx(font, text, position, fontSize, spacing, *this); } void DrawText(const ::Font& font, const std::string& text, ::Vector2 position, float fontSize, float spacing) const { ::DrawTextEx(font, text.c_str(), position, fontSize, spacing, *this); } void DrawText( const ::Font& font, const char* text, ::Vector2 position, ::Vector2 origin, float rotation, float fontSize, float spacing) const { ::DrawTextPro(font, text, position, origin, rotation, fontSize, spacing, *this); } void DrawText( const ::Font& font, const std::string& text, ::Vector2 position, ::Vector2 origin, float rotation, float fontSize, float spacing) const { ::DrawTextPro(font, text.c_str(), position, origin, rotation, fontSize, spacing, *this); } void DrawRectangle(int posX, int posY, int width, int height) const { ::DrawRectangle(posX, posY, width, height, *this); } void DrawRectangle(::Vector2 position, ::Vector2 size) const { ::DrawRectangleV(position, size, *this); } void DrawRectangle(::Rectangle rec) const { ::DrawRectangleRec(rec, *this); } void DrawRectangle(::Rectangle rec, ::Vector2 origin, float rotation) const { ::DrawRectanglePro(rec, origin, rotation, *this); } void DrawRectangleLines(int posX, int posY, int width, int height) const { ::DrawRectangleLines(posX, posY, width, height, *this); } void DrawRectangleLines(::Rectangle rec, float lineThick) const { ::DrawRectangleLinesEx(rec, lineThick, *this); } bool IsEqual(::Color color) { return ::ColorIsEqual(*this, color); } bool operator==(const ::Color& other) const { return ::ColorIsEqual(*this, other); } bool operator!=(const ::Color& other) const { return !::ColorIsEqual(*this, other); } /** * Get color multiplied with another color */ Color Tint(::Color tint) { return ::ColorTint(*this, tint); } /** * Get color with brightness correction, brightness factor goes from -1.0f to 1.0f */ Color Brightness(float factor) { return ::ColorBrightness(*this, factor); } /** * Get color with contrast correction, contrast values between -1.0f and 1.0f */ Color Contrast(float contrast) { return ::ColorContrast(*this, contrast); } /** * Returns color with alpha applied, alpha goes from 0.0f to 1.0f */ [[nodiscard]] Color Alpha(float alpha) const { return ::ColorAlpha(*this, alpha); } Color Lerp(::Color color2, float factor) { return ::ColorLerp(*this, color2, factor); } /** * Returns src alpha-blended into dst color with tint */ [[nodiscard]] Color AlphaBlend(::Color dst, ::Color tint) const { return ::ColorAlphaBlend(dst, *this, tint); } static Color LightGray() { return LIGHTGRAY; } static Color Gray() { return GRAY; } static Color DarkGray() { return DARKGRAY; } static Color Yellow() { return YELLOW; } static Color Gold() { return GOLD; } static Color Orange() { return ORANGE; } static Color Pink() { return PINK; } static Color Red() { return RED; } static Color Maroon() { return MAROON; } static Color Green() { return GREEN; } static Color Lime() { return LIME; } static Color DarkGreen() { return DARKGREEN; } static Color SkyBlue() { return SKYBLUE; } static Color Blue() { return BLUE; } static Color DarkBlue() { return DARKBLUE; } static Color Purple() { return PURPLE; } static Color Violet() { return VIOLET; } static Color DarkPurple() { return DARKPURPLE; } static Color Beige() { return BEIGE; } static Color Brown() { return BROWN; } static Color DarkBrown() { return DARKBROWN; } static Color White() { return WHITE; } static Color Black() { return BLACK; } static Color Blank() { return BLANK; } static Color Magenta() { return MAGENTA; } static Color RayWhite() { return RAYWHITE; } protected: void set(const ::Color& color) { r = color.r; g = color.g; b = color.b; a = color.a; } }; } // namespace raylib using RColor = raylib::Color; #endif // RAYLIB_CPP_INCLUDE_COLOR_HPP_