/* * Copyright 2008-2015 Haiku, Inc. All rights reserved. * Distributed under the terms of the MIT License. */ #ifndef _GRAPHICS_DEFS_H #define _GRAPHICS_DEFS_H #include // Pattern typedef struct pattern { uint8 data[8]; } pattern; #ifdef __cplusplus inline bool operator==(const pattern& a, const pattern& b) { uint64* pa = (uint64*)a.data; uint64* pb = (uint64*)b.data; return (*pa == *pb); } inline bool operator!=(const pattern& a, const pattern& b) { return !(a == b); } #endif // __cplusplus extern const pattern B_SOLID_HIGH; extern const pattern B_MIXED_COLORS; extern const pattern B_SOLID_LOW; // rgb_color typedef struct rgb_color { uint8 red; uint8 green; uint8 blue; uint8 alpha; #if defined(__cplusplus) // some convenient additions inline rgb_color& set_to(uint8 r, uint8 g, uint8 b, uint8 a = 255) { red = r; green = g; blue = b; alpha = a; return *this; } int32 Brightness() const; inline bool operator==(const rgb_color& other) const { return *(const uint32 *)this == *(const uint32 *)&other; } inline bool operator!=(const rgb_color& other) const { return *(const uint32 *)this != *(const uint32 *)&other; } inline rgb_color& operator=(const rgb_color& other) { return set_to(other.red, other.green, other.blue, other.alpha); } #endif } rgb_color; #if defined(__cplusplus) inline rgb_color make_color(uint8 red, uint8 green, uint8 blue, uint8 alpha = 255) { rgb_color color = {red, green, blue, alpha}; return color; } #endif rgb_color mix_color(rgb_color color1, rgb_color color2, uint8 amount); rgb_color blend_color(rgb_color color1, rgb_color color2, uint8 amount); rgb_color disable_color(rgb_color color, rgb_color background); extern const rgb_color B_TRANSPARENT_COLOR; extern const uint8 B_TRANSPARENT_MAGIC_CMAP8; extern const uint16 B_TRANSPARENT_MAGIC_RGBA15; extern const uint16 B_TRANSPARENT_MAGIC_RGBA15_BIG; extern const uint32 B_TRANSPARENT_MAGIC_RGBA32; extern const uint32 B_TRANSPARENT_MAGIC_RGBA32_BIG; extern const uint8 B_TRANSPARENT_8_BIT; extern const rgb_color B_TRANSPARENT_32_BIT; // color map typedef struct color_map { int32 id; rgb_color color_list[256]; uint8 inversion_map[256]; uint8 index_map[32768]; } color_map; // overlay typedef struct overlay_rect_limits { uint16 horizontal_alignment; uint16 vertical_alignment; uint16 width_alignment; uint16 height_alignment; uint16 min_width; uint16 max_width; uint16 min_height; uint16 max_height; uint32 reserved[8]; } overlay_rect_limits; typedef struct overlay_restrictions { overlay_rect_limits source; overlay_rect_limits destination; float min_width_scale; float max_width_scale; float min_height_scale; float max_height_scale; uint32 reserved[8]; } overlay_restrictions; // Screen ID struct screen_id { int32 id; }; extern const struct screen_id B_MAIN_SCREEN_ID; // Color spaces typedef enum { B_NO_COLOR_SPACE = 0x0000, // linear color space (little endian) B_RGB32 = 0x0008, // BGR- -RGB 8:8:8:8 B_RGBA32 = 0x2008, // BGRA ARGB 8:8:8:8 B_RGB24 = 0x0003, // BGR RGB 8:8:8 B_RGB16 = 0x0005, // BGR RGB 5:6:5 B_RGB15 = 0x0010, // BGR- -RGB 1:5:5:5 B_RGBA15 = 0x2010, // BGRA ARGB 1:5:5:5 B_CMAP8 = 0x0004, // 256 color index table B_GRAY8 = 0x0002, // 256 greyscale table B_GRAY1 = 0x0001, // Each bit represents a single pixel // linear color space (big endian) B_RGB32_BIG = 0x1008, // -RGB BGR- 8:8:8:8 B_RGBA32_BIG = 0x3008, // ARGB BGRA 8:8:8:8 B_RGB24_BIG = 0x1003, // RGB BGR 8:8:8 B_RGB16_BIG = 0x1005, // RGB BGR 5:6:5 B_RGB15_BIG = 0x1010, // -RGB BGR- 5:5:5:1 B_RGBA15_BIG = 0x3010, // ARGB BGRA 5:5:5:1 // linear color space (little endian, for completeness) B_RGB32_LITTLE = B_RGB32, B_RGBA32_LITTLE = B_RGBA32, B_RGB24_LITTLE = B_RGB24, B_RGB16_LITTLE = B_RGB16, B_RGB15_LITTLE = B_RGB15, B_RGBA15_LITTLE = B_RGBA15, // non linear color space -- incidently, all with 8 bits per value // Note, BBitmap and BView do not support all of these! // Loss / saturation points: // Y 16 - 235 (absolute) // Cb/Cr 16 - 240 (center 128) B_YCbCr422 = 0x4000, // Y0 Cb0 Y1 Cr0 // Y2 Cb2 Y3 Cr4 B_YCbCr411 = 0x4001, // Cb0 Y0 Cr0 Y1 // Cb4 Y2 Cr4 Y3 // Y4 Y5 Y6 Y7 B_YCbCr444 = 0x4003, // Y Cb Cr B_YCbCr420 = 0x4004, // Non-interlaced only // on even scan lines: Cb0 Y0 Y1 Cb2 Y2 Y3 // on odd scan lines: Cr0 Y0 Y1 Cr2 Y2 Y3 // Extrema points are: // Y 0 - 207 (absolute) // U -91 - 91 (offset 128) // V -127 - 127 (offset 128) // Note that YUV byte order is different from YCbCr; use YCbCr, not YUV, // when that's what you mean! B_YUV422 = 0x4020, // U0 Y0 V0 Y1 // U2 Y2 V2 Y3 B_YUV411 = 0x4021, // U0 Y0 Y1 V0 Y2 Y3 // U4 Y4 Y5 V4 Y6 Y7 B_YUV444 = 0x4023, // U0 Y0 V0 U1 Y1 V1 B_YUV420 = 0x4024, // Non-interlaced only // on even scan lines: U0 Y0 Y1 U2 Y2 Y3 // on odd scan lines: V0 Y0 Y1 V2 Y2 Y3 B_YUV9 = 0x402C, B_YUV12 = 0x402D, B_UVL24 = 0x4030, // UVL B_UVL32 = 0x4031, // UVL- B_UVLA32 = 0x6031, // UVLA // L lightness, a/b color-opponent dimensions B_LAB24 = 0x4032, // Lab B_LAB32 = 0x4033, // Lab- B_LABA32 = 0x6033, // LabA // Red is at hue 0 B_HSI24 = 0x4040, // HSI B_HSI32 = 0x4041, // HSI- B_HSIA32 = 0x6041, // HSIA B_HSV24 = 0x4042, // HSV B_HSV32 = 0x4043, // HSV- B_HSVA32 = 0x6043, // HSVA B_HLS24 = 0x4044, // HLS B_HLS32 = 0x4045, // HLS- B_HLSA32 = 0x6045, // HLSA B_CMY24 = 0xC001, // CMY B_CMY32 = 0xC002, // CMY- B_CMYA32 = 0xE002, // CMYA B_CMYK32 = 0xC003, // CMYK // Compatibility declarations B_MONOCHROME_1_BIT = B_GRAY1, B_GRAYSCALE_8_BIT = B_GRAY8, B_COLOR_8_BIT = B_CMAP8, B_RGB_32_BIT = B_RGB32, B_RGB_16_BIT = B_RGB15, B_BIG_RGB_32_BIT = B_RGB32_BIG, B_BIG_RGB_16_BIT = B_RGB15_BIG } color_space; // Bitmap Support Flags enum { B_VIEWS_SUPPORT_DRAW_BITMAP = 0x1, B_BITMAPS_SUPPORT_ATTACHED_VIEWS = 0x2, B_BITMAPS_SUPPORT_OVERLAY = 0x4 }; bool bitmaps_support_space(color_space space, uint32* _supportFlags); status_t get_pixel_size_for(color_space space, size_t* _pixelChunk, size_t* _rowAlignment, size_t* _pixelsPerChunk); enum buffer_orientation { B_BUFFER_TOP_TO_BOTTOM, B_BUFFER_BOTTOM_TO_TOP }; enum buffer_layout { B_BUFFER_NONINTERLEAVED = 1 }; // Drawing Modes enum drawing_mode { B_OP_COPY, B_OP_OVER, B_OP_ERASE, B_OP_INVERT, B_OP_ADD, B_OP_SUBTRACT, B_OP_BLEND, B_OP_MIN, B_OP_MAX, B_OP_SELECT, B_OP_ALPHA }; enum source_alpha { B_PIXEL_ALPHA = 0, B_CONSTANT_ALPHA }; enum alpha_function { B_ALPHA_OVERLAY = 0, B_ALPHA_COMPOSITE }; // Fixed Screen Modes enum { B_8_BIT_640x480 = 0x00000001, B_8_BIT_800x600 = 0x00000002, B_8_BIT_1024x768 = 0x00000004, B_8_BIT_1280x1024 = 0x00000008, B_8_BIT_1600x1200 = 0x00000010, B_16_BIT_640x480 = 0x00000020, B_16_BIT_800x600 = 0x00000040, B_16_BIT_1024x768 = 0x00000080, B_16_BIT_1280x1024 = 0x00000100, B_16_BIT_1600x1200 = 0x00000200, B_32_BIT_640x480 = 0x00000400, B_32_BIT_800x600 = 0x00000800, B_32_BIT_1024x768 = 0x00001000, B_32_BIT_1280x1024 = 0x00002000, B_32_BIT_1600x1200 = 0x00004000, B_8_BIT_1152x900 = 0x00008000, B_16_BIT_1152x900 = 0x00010000, B_32_BIT_1152x900 = 0x00020000, B_15_BIT_640x480 = 0x00040000, B_15_BIT_800x600 = 0x00080000, B_15_BIT_1024x768 = 0x00100000, B_15_BIT_1280x1024 = 0x00200000, B_15_BIT_1600x1200 = 0x00400000, B_15_BIT_1152x900 = 0x00800000, B_8_BIT_640x400 = 0x80000000 }; #endif // _GRAPHICS_DEFS_H