haiku/headers/os/interface/GraphicsDefs.h
Stephan Aßmus 0985210969 added this very useful compare function
git-svn-id: file:///srv/svn/repos/haiku/haiku/trunk@12122 a95241bf-73f2-0310-859d-f6bbb57e9c96
2005-03-29 16:30:46 +00:00

338 lines
11 KiB
C

//------------------------------------------------------------------------------
// Copyright (c) 2001-2002, OpenBeOS
//
// Permission is hereby granted, free of charge, to any person obtaining a
// copy of this software and associated documentation files (the "Software"),
// to deal in the Software without restriction, including without limitation
// the rights to use, copy, modify, merge, publish, distribute, sublicense,
// and/or sell copies of the Software, and to permit persons to whom the
// Software is furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
// FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
// DEALINGS IN THE SOFTWARE.
//
// File Name: GraphicsDefs.h
// Author: Frans van Nispen
// Description: BMessageFilter class creates objects that filter
// in-coming BMessages.
//------------------------------------------------------------------------------
#ifndef _GRAPHICS_DEFS_H
#define _GRAPHICS_DEFS_H
// Standard Includes -----------------------------------------------------------
// System Includes -------------------------------------------------------------
#include <BeBuild.h>
#include <SupportDefs.h>
// Project Includes ------------------------------------------------------------
// Local Includes --------------------------------------------------------------
// Local Defines ---------------------------------------------------------------
// Globals ---------------------------------------------------------------------
//------------------------------------------------------------------------------
typedef struct pattern {
uint8 data[8];
} pattern;
#ifdef __cplusplus
inline bool
operator==(const pattern& a, const pattern& b)
{
return (*(uint64*)a.data == *(uint64*)b.data);
}
#endif // __cplusplus
extern _IMPEXP_BE const pattern B_SOLID_HIGH;
extern _IMPEXP_BE const pattern B_MIXED_COLORS;
extern _IMPEXP_BE const pattern B_SOLID_LOW;
//------------------------------------------------------------------------------
typedef struct rgb_color {
uint8 red;
uint8 green;
uint8 blue;
uint8 alpha;
#if defined(__cplusplus)
// some convenient additions
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;
}
#endif
} rgb_color;
//------------------------------------------------------------------------------
extern _IMPEXP_BE const rgb_color B_TRANSPARENT_COLOR;
extern _IMPEXP_BE const uint8 B_TRANSPARENT_MAGIC_CMAP8;
extern _IMPEXP_BE const uint16 B_TRANSPARENT_MAGIC_RGBA15;
extern _IMPEXP_BE const uint16 B_TRANSPARENT_MAGIC_RGBA15_BIG;
extern _IMPEXP_BE const uint32 B_TRANSPARENT_MAGIC_RGBA32;
extern _IMPEXP_BE const uint32 B_TRANSPARENT_MAGIC_RGBA32_BIG;
extern _IMPEXP_BE const uint8 B_TRANSPARENT_8_BIT;
extern _IMPEXP_BE const rgb_color B_TRANSPARENT_32_BIT;
//------------------------------------------------------------------------------
typedef struct color_map {
int32 id;
rgb_color color_list[256];
uint8 inversion_map[256];
uint8 index_map[32768];
} color_map;
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;
//------------------------------------------------------------------------------
struct screen_id { int32 id; };
extern _IMPEXP_BE const struct screen_id B_MAIN_SCREEN_ID;
//------------------------------------------------------------------------------
typedef enum
{
B_NO_COLOR_SPACE = 0x0000, //* byte in memory order, high bit first
// linear color space (little endian is the default)
B_RGB32 = 0x0008, //* B[7:0] G[7:0] R[7:0] -[7:0]
B_RGBA32 = 0x2008, // B[7:0] G[7:0] R[7:0] A[7:0]
B_RGB24 = 0x0003, // B[7:0] G[7:0] R[7:0]
B_RGB16 = 0x0005, // G[2:0],B[4:0] R[4:0],G[5:3]
B_RGB15 = 0x0010, // G[2:0],B[4:0] -[0],R[4:0],G[4:3]
B_RGBA15 = 0x2010, // G[2:0],B[4:0] A[0],R[4:0],G[4:3]
B_CMAP8 = 0x0004, // D[7:0]
B_GRAY8 = 0x0002, // Y[7:0]
B_GRAY1 = 0x0001, // Y0[0],Y1[0],Y2[0],Y3[0],Y4[0],Y5[0],Y6[0],Y7[0]
// big endian version, when the encoding is not endianess independant
B_RGB32_BIG = 0x1008, // -[7:0] R[7:0] G[7:0] B[7:0]
B_RGBA32_BIG = 0x3008, // A[7:0] R[7:0] G[7:0] B[7:0]
B_RGB24_BIG = 0x1003, // R[7:0] G[7:0] B[7:0]
B_RGB16_BIG = 0x1005, // R[4:0],G[5:3] G[2:0],B[4:0]
B_RGB15_BIG = 0x1010, // -[0],R[4:0],G[4:3] G[2:0],B[4:0]
B_RGBA15_BIG = 0x3010, // A[0],R[4:0],G[4:3] G[2:0],B[4:0]
// little-endian declarations, for completness
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 -- note that these are here for exchange purposes;
// a BBitmap or BView may not necessarily support all these color spaces.
// Loss/Saturation points are Y 16-235 (absoulte); Cb/Cr 16-240 (center 128)
B_YCbCr422 = 0x4000, // Y0[7:0] Cb0[7:0] Y1[7:0] Cr0[7:0] Y2[7:0]...
// Cb2[7:0] Y3[7:0] Cr2[7:0]
B_YCbCr411 = 0x4001, // Cb0[7:0] Y0[7:0] Cr0[7:0] Y1[7:0] Cb4[7:0]...
// Y2[7:0] Cr4[7:0] Y3[7:0] Y4[7:0] Y5[7:0]...
// Y6[7:0] Y7[7:0]
B_YCbCr444 = 0x4003, // Y0[7:0] Cb0[7:0] Cr0[7:0]
B_YCbCr420 = 0x4004, // Non-interlaced only, Cb0 Y0 Y1 Cb2 Y2 Y3
// on even scan lines, Cr0 Y0 Y1 Cr2 Y2 Y3
// on odd scan lines
// 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[7:0] Y0[7:0] V0[7:0] Y1[7:0] ...
// U2[7:0] Y2[7:0] V2[7:0] Y3[7:0]
B_YUV411 = 0x4021, // U0[7:0] Y0[7:0] Y1[7:0] V0[7:0] Y2[7:0] Y3[7:0]
// U4[7:0] Y4[7:0] Y5[7:0] V4[7:0] Y6[7:0] Y7[7:0]
B_YUV444 = 0x4023, // U0[7:0] Y0[7:0] V0[7:0] U1[7:0] Y1[7:0] V1[7:0]
B_YUV420 = 0x4024, // Non-interlaced only, U0 Y0 Y1 U2 Y2 Y3
// on even scan lines, V0 Y0 Y1 V2 Y2 Y3
// on odd scan lines
B_YUV9 = 0x402C, // planar? 410?
B_YUV12 = 0x402D, // planar? 420?
B_UVL24 = 0x4030, // U0[7:0] V0[7:0] L0[7:0] ...
B_UVL32 = 0x4031, // U0[7:0] V0[7:0] L0[7:0] X0[7:0]...
B_UVLA32 = 0x6031, // U0[7:0] V0[7:0] L0[7:0] A0[7:0]...
B_LAB24 = 0x4032, // L0[7:0] a0[7:0] b0[7:0] ... (a is not alpha!)
B_LAB32 = 0x4033, // L0[7:0] a0[7:0] b0[7:0] X0[7:0] ... (b is not alpha!)
B_LABA32 = 0x6033, // L0[7:0] a0[7:0] b0[7:0] A0[7:0] ... (A is alpha)
// red is at hue = 0
B_HSI24 = 0x4040, // H[7:0] S[7:0] I[7:0]
B_HSI32 = 0x4041, // H[7:0] S[7:0] I[7:0] X[7:0]
B_HSIA32 = 0x6041, // H[7:0] S[7:0] I[7:0] A[7:0]
B_HSV24 = 0x4042, // H[7:0] S[7:0] V[7:0]
B_HSV32 = 0x4043, // H[7:0] S[7:0] V[7:0] X[7:0]
B_HSVA32 = 0x6043, // H[7:0] S[7:0] V[7:0] A[7:0]
B_HLS24 = 0x4044, // H[7:0] L[7:0] S[7:0]
B_HLS32 = 0x4045, // H[7:0] L[7:0] S[7:0] X[7:0]
B_HLSA32 = 0x6045, // H[7:0] L[7:0] S[7:0] A[7:0]
B_CMY24 = 0xC001, // C[7:0] M[7:0] Y[7:0] No gray removal done
B_CMY32 = 0xC002, // C[7:0] M[7:0] Y[7:0] X[7:0] No gray removal done
B_CMYA32 = 0xE002, // C[7:0] M[7:0] Y[7:0] A[7:0] No gray removal done
B_CMYK32 = 0xC003, // C[7:0] M[7:0] Y[7:0] K[7:0]
// 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;
// Find out whether a specific color space is supported by BBitmaps.
// Support_flags will be set to what kinds of support are available.
// If support_flags is set to 0, false will be returned.
enum {
B_VIEWS_SUPPORT_DRAW_BITMAP = 0x1,
B_BITMAPS_SUPPORT_ATTACHED_VIEWS = 0x2
};
_IMPEXP_BE bool bitmaps_support_space(color_space space, uint32 * support_flags);
//------------------------------------------------------------------------------
// "pixel_chunk" is the native increment from one pixel starting on an integral byte
// to the next. "row_alignment" is the native alignment for pixel scanline starts.
// "pixels_per_chunk" is the number of pixels in a pixel_chunk. For instance, B_GRAY1
// sets pixel_chunk to 1, row_alignment to 4 and pixels_per_chunk to 8, whereas
// B_RGB24 sets pixel_chunk to 3, row_alignment to 4 and pixels_per_chunk to 1.
//------------------------------------------------------------------------------
_IMPEXP_BE status_t get_pixel_size_for(color_space space, size_t * pixel_chunk,
size_t * row_alignment, size_t * pixels_per_chunk);
enum buffer_orientation {
B_BUFFER_TOP_TO_BOTTOM,
B_BUFFER_BOTTOM_TO_TOP
};
enum buffer_layout {
B_BUFFER_NONINTERLEAVED = 1
};
//------------------------------------------------------------------------------
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
};
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,
// do not use B_FAKE_DEVICE--it will go away!
B_FAKE_DEVICE = 0x40000000,
B_8_BIT_640x400 = (int)0x80000000
};
#endif // _GRAPHICSDEFS_H
/*
* $Log $
*
* $Id $
*
*/