Mercurial > sdl-ios-xcode
view src/video/SDL_pixels.c @ 2218:6cc82cad8b77
1.3 video API design chat
author | Sam Lantinga <slouken@libsdl.org> |
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date | Tue, 07 Aug 2007 07:08:25 +0000 |
parents | 2c835d58faad |
children | 340942cfda48 |
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/* SDL - Simple DirectMedia Layer Copyright (C) 1997-2006 Sam Lantinga This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2.1 of the License, or (at your option) any later version. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this library; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA Sam Lantinga slouken@libsdl.org */ #include "SDL_config.h" /* General (mostly internal) pixel/color manipulation routines for SDL */ #include "SDL_endian.h" #include "SDL_video.h" #include "SDL_sysvideo.h" #include "SDL_blit.h" #include "SDL_pixels_c.h" #include "SDL_RLEaccel_c.h" /* Helper functions */ SDL_bool SDL_PixelFormatEnumToMasks(Uint32 format, int *bpp, Uint32 * Rmask, Uint32 * Gmask, Uint32 * Bmask, Uint32 * Amask) { Uint32 masks[4]; /* Initialize the values here */ if (SDL_BITSPERPIXEL(format) == 24) { *bpp = SDL_BYTESPERPIXEL(format) * 8; } else { *bpp = SDL_BITSPERPIXEL(format); } *Rmask = *Gmask = *Bmask = *Amask = 0; if (SDL_PIXELTYPE(format) != SDL_PIXELTYPE_PACKED8 && SDL_PIXELTYPE(format) != SDL_PIXELTYPE_PACKED16 && SDL_PIXELTYPE(format) != SDL_PIXELTYPE_PACKED32) { /* Not a format that uses masks */ return SDL_TRUE; } switch (SDL_PIXELLAYOUT(format)) { case SDL_PACKEDLAYOUT_332: masks[0] = 0x00000000; masks[1] = 0x000000E0; masks[2] = 0x0000001C; masks[3] = 0x00000003; break; case SDL_PACKEDLAYOUT_4444: masks[0] = 0x0000F000; masks[1] = 0x00000F00; masks[2] = 0x000000F0; masks[3] = 0x0000000F; break; case SDL_PACKEDLAYOUT_1555: masks[0] = 0x00008000; masks[1] = 0x00007C00; masks[2] = 0x000003E0; masks[3] = 0x0000001F; break; case SDL_PACKEDLAYOUT_565: masks[0] = 0x00000000; masks[1] = 0x0000F800; masks[2] = 0x000007E0; masks[3] = 0x0000001F; break; case SDL_PACKEDLAYOUT_8888: masks[0] = 0xFF000000; masks[1] = 0x00FF0000; masks[2] = 0x0000FF00; masks[3] = 0x000000FF; break; case SDL_PACKEDLAYOUT_2101010: masks[0] = 0xC0000000; masks[1] = 0x3FF00000; masks[2] = 0x000FFC00; masks[3] = 0x000003FF; break; default: /* Unknown layout */ return SDL_FALSE; } switch (SDL_PIXELORDER(format)) { case SDL_PACKEDORDER_XRGB: *Rmask = masks[1]; *Gmask = masks[2]; *Bmask = masks[3]; break; case SDL_PACKEDORDER_RGBX: *Rmask = masks[0]; *Gmask = masks[1]; *Bmask = masks[2]; break; case SDL_PACKEDORDER_ARGB: *Amask = masks[0]; *Rmask = masks[1]; *Gmask = masks[2]; *Bmask = masks[3]; break; case SDL_PACKEDORDER_RGBA: *Rmask = masks[0]; *Gmask = masks[1]; *Bmask = masks[2]; *Amask = masks[3]; break; case SDL_PACKEDORDER_XBGR: *Bmask = masks[1]; *Gmask = masks[2]; *Rmask = masks[3]; break; case SDL_PACKEDORDER_BGRX: *Bmask = masks[0]; *Gmask = masks[1]; *Rmask = masks[2]; break; case SDL_PACKEDORDER_BGRA: *Bmask = masks[0]; *Gmask = masks[1]; *Rmask = masks[2]; *Amask = masks[3]; break; case SDL_PACKEDORDER_ABGR: *Amask = masks[0]; *Bmask = masks[1]; *Gmask = masks[2]; *Rmask = masks[3]; break; default: /* Unknown order */ return SDL_FALSE; } return SDL_TRUE; } Uint32 SDL_MasksToPixelFormatEnum(int bpp, Uint32 Rmask, Uint32 Gmask, Uint32 Bmask, Uint32 Amask) { switch (bpp) { case 8: switch (Rmask) { case 0: return SDL_PIXELFORMAT_INDEX8; case 0xE0: return SDL_PIXELFORMAT_RGB332; } break; case 12: switch (Rmask) { case 0x0F00: return SDL_PIXELFORMAT_RGB444; } break; case 15: switch (Rmask) { case 0x7C00: return SDL_PIXELFORMAT_RGB555; } break; case 16: switch (Rmask) { case 0x0F00: return SDL_PIXELFORMAT_ARGB4444; case 0x7C00: return SDL_PIXELFORMAT_ARGB1555; case 0xF800: return SDL_PIXELFORMAT_RGB565; } break; case 32: switch (Rmask) { case 0xFF000000: if (Amask == 0x000000FF) { return SDL_PIXELFORMAT_RGBA8888; } break; case 0x00FF0000: if (Amask == 0xFF000000) { return SDL_PIXELFORMAT_ARGB8888; } else { return SDL_PIXELFORMAT_RGB888; } break; case 0x0000FF00: if (Amask == 0x000000FF) { return SDL_PIXELFORMAT_BGRA8888; } break; case 0x000000FF: if (Amask == 0xFF000000) { return SDL_PIXELFORMAT_ABGR8888; } else { return SDL_PIXELFORMAT_BGR888; } break; case 0x3FF00000: return SDL_PIXELFORMAT_ARGB2101010; } } return SDL_PIXELFORMAT_UNKNOWN; } SDL_Palette * SDL_AllocPalette(int ncolors) { SDL_Palette *palette; palette = (SDL_Palette *) SDL_malloc(sizeof(*palette)); if (!palette) { SDL_OutOfMemory(); return NULL; } palette->colors = (SDL_Color *) SDL_malloc(ncolors * sizeof(*palette->colors)); if (!palette->colors) { SDL_free(palette); return NULL; } palette->ncolors = ncolors; palette->watch = NULL; palette->refcount = 1; SDL_memset(palette->colors, 0xFF, ncolors * sizeof(*palette->colors)); return palette; } int SDL_AddPaletteWatch(SDL_Palette * palette, SDL_PaletteChangedFunc callback, void *userdata) { SDL_PaletteWatch *watch; if (!palette) { return -1; } watch = (SDL_PaletteWatch *) SDL_malloc(sizeof(*watch)); if (!watch) { SDL_OutOfMemory(); return -1; } watch->callback = callback; watch->userdata = userdata; watch->next = palette->watch; palette->watch = watch; ++palette->refcount; return 0; } void SDL_DelPaletteWatch(SDL_Palette * palette, SDL_PaletteChangedFunc callback, void *userdata) { SDL_PaletteWatch *prev, *watch; if (!palette) { return; } for (prev = NULL, watch = palette->watch; watch; prev = watch, watch = watch->next) { if (watch->callback == callback && watch->userdata == userdata) { if (prev) { prev->next = watch->next; } else { palette->watch = watch->next; } SDL_free(watch); SDL_FreePalette(palette); return; } } } int SDL_SetPaletteColors(SDL_Palette * palette, const SDL_Color * colors, int firstcolor, int ncolors) { SDL_PaletteWatch *watch; int status = 0; /* Verify the parameters */ if (!palette) { return -1; } if (ncolors > (palette->ncolors - firstcolor)) { ncolors = (palette->ncolors - firstcolor); status = -1; } if (colors != (palette->colors + firstcolor)) { SDL_memcpy(palette->colors + firstcolor, colors, ncolors * sizeof(*colors)); } for (watch = palette->watch; watch; watch = watch->next) { if (watch->callback(watch->userdata, palette) < 0) { status = -1; } } return status; } void SDL_FreePalette(SDL_Palette * palette) { if (!palette) { return; } if (--palette->refcount > 0) { return; } if (palette->colors) { SDL_free(palette->colors); } SDL_free(palette); } /* * Allocate a pixel format structure and fill it according to the given info. */ SDL_PixelFormat * SDL_AllocFormat(int bpp, Uint32 Rmask, Uint32 Gmask, Uint32 Bmask, Uint32 Amask) { SDL_PixelFormat *format; Uint32 mask; /* Allocate an empty pixel format structure */ format = SDL_calloc(1, sizeof(*format)); if (format == NULL) { SDL_OutOfMemory(); return (NULL); } format->alpha = SDL_ALPHA_OPAQUE; /* Set up the format */ format->BitsPerPixel = bpp; format->BytesPerPixel = (bpp + 7) / 8; if (Rmask || Bmask || Gmask) { /* Packed pixels with custom mask */ format->Rshift = 0; format->Rloss = 8; if (Rmask) { for (mask = Rmask; !(mask & 0x01); mask >>= 1) ++format->Rshift; for (; (mask & 0x01); mask >>= 1) --format->Rloss; } format->Gshift = 0; format->Gloss = 8; if (Gmask) { for (mask = Gmask; !(mask & 0x01); mask >>= 1) ++format->Gshift; for (; (mask & 0x01); mask >>= 1) --format->Gloss; } format->Bshift = 0; format->Bloss = 8; if (Bmask) { for (mask = Bmask; !(mask & 0x01); mask >>= 1) ++format->Bshift; for (; (mask & 0x01); mask >>= 1) --format->Bloss; } format->Ashift = 0; format->Aloss = 8; if (Amask) { for (mask = Amask; !(mask & 0x01); mask >>= 1) ++format->Ashift; for (; (mask & 0x01); mask >>= 1) --format->Aloss; } format->Rmask = Rmask; format->Gmask = Gmask; format->Bmask = Bmask; format->Amask = Amask; } else if (bpp > 8) { /* Packed pixels with standard mask */ /* R-G-B */ if (bpp > 24) bpp = 24; format->Rloss = 8 - (bpp / 3); format->Gloss = 8 - (bpp / 3) - (bpp % 3); format->Bloss = 8 - (bpp / 3); format->Rshift = ((bpp / 3) + (bpp % 3)) + (bpp / 3); format->Gshift = (bpp / 3); format->Bshift = 0; format->Rmask = ((0xFF >> format->Rloss) << format->Rshift); format->Gmask = ((0xFF >> format->Gloss) << format->Gshift); format->Bmask = ((0xFF >> format->Bloss) << format->Bshift); } else { /* Palettized formats have no mask info */ format->Rloss = 8; format->Gloss = 8; format->Bloss = 8; format->Aloss = 8; format->Rshift = 0; format->Gshift = 0; format->Bshift = 0; format->Ashift = 0; format->Rmask = 0; format->Gmask = 0; format->Bmask = 0; format->Amask = 0; } format->palette = NULL; return (format); } /* * Change any previous mappings from/to the new surface format */ void SDL_FormatChanged(SDL_Surface * surface) { static int format_version = 0; ++format_version; if (format_version < 0) { /* It wrapped... */ format_version = 1; } surface->format_version = format_version; SDL_InvalidateMap(surface->map); } /* * Free a previously allocated format structure */ void SDL_FreeFormat(SDL_PixelFormat * format) { if (!format) { return; } SDL_free(format); } /* * Calculate an 8-bit (3 red, 3 green, 2 blue) dithered palette of colors */ void SDL_DitherColors(SDL_Color * colors, int bpp) { int i; if (bpp != 8) return; /* only 8bpp supported right now */ for (i = 0; i < 256; i++) { int r, g, b; /* map each bit field to the full [0, 255] interval, so 0 is mapped to (0, 0, 0) and 255 to (255, 255, 255) */ r = i & 0xe0; r |= r >> 3 | r >> 6; colors[i].r = r; g = (i << 3) & 0xe0; g |= g >> 3 | g >> 6; colors[i].g = g; b = i & 0x3; b |= b << 2; b |= b << 4; colors[i].b = b; colors[i].unused = SDL_ALPHA_OPAQUE; } } /* * Calculate the pad-aligned scanline width of a surface */ int SDL_CalculatePitch(SDL_Surface * surface) { int pitch; /* Surface should be 4-byte aligned for speed */ pitch = surface->w * surface->format->BytesPerPixel; switch (surface->format->BitsPerPixel) { case 1: pitch = (pitch + 7) / 8; break; case 4: pitch = (pitch + 1) / 2; break; default: break; } pitch = (pitch + 3) & ~3; /* 4-byte aligning */ return (pitch); } /* * Match an RGB value to a particular palette index */ Uint8 SDL_FindColor(SDL_Palette * pal, Uint8 r, Uint8 g, Uint8 b) { /* Do colorspace distance matching */ unsigned int smallest; unsigned int distance; int rd, gd, bd; int i; Uint8 pixel = 0; smallest = ~0; for (i = 0; i < pal->ncolors; ++i) { rd = pal->colors[i].r - r; gd = pal->colors[i].g - g; bd = pal->colors[i].b - b; distance = (rd * rd) + (gd * gd) + (bd * bd); if (distance < smallest) { pixel = i; if (distance == 0) { /* Perfect match! */ break; } smallest = distance; } } return (pixel); } /* Find the opaque pixel value corresponding to an RGB triple */ Uint32 SDL_MapRGB(const SDL_PixelFormat * const format, const Uint8 r, const Uint8 g, const Uint8 b) { if (format->palette == NULL) { return (r >> format->Rloss) << format->Rshift | (g >> format->Gloss) << format->Gshift | (b >> format->Bloss) << format->Bshift | format->Amask; } else { return SDL_FindColor(format->palette, r, g, b); } } /* Find the pixel value corresponding to an RGBA quadruple */ Uint32 SDL_MapRGBA(const SDL_PixelFormat * const format, const Uint8 r, const Uint8 g, const Uint8 b, const Uint8 a) { if (format->palette == NULL) { return (r >> format->Rloss) << format->Rshift | (g >> format->Gloss) << format->Gshift | (b >> format->Bloss) << format->Bshift | ((a >> format->Aloss) << format->Ashift & format->Amask); } else { return SDL_FindColor(format->palette, r, g, b); } } void SDL_GetRGBA(Uint32 pixel, SDL_PixelFormat * fmt, Uint8 * r, Uint8 * g, Uint8 * b, Uint8 * a) { if (fmt->palette == NULL) { /* * This makes sure that the result is mapped to the * interval [0..255], and the maximum value for each * component is 255. This is important to make sure * that white is indeed reported as (255, 255, 255), * and that opaque alpha is 255. * This only works for RGB bit fields at least 4 bit * wide, which is almost always the case. */ unsigned v; v = (pixel & fmt->Rmask) >> fmt->Rshift; *r = (v << fmt->Rloss) + (v >> (8 - (fmt->Rloss << 1))); v = (pixel & fmt->Gmask) >> fmt->Gshift; *g = (v << fmt->Gloss) + (v >> (8 - (fmt->Gloss << 1))); v = (pixel & fmt->Bmask) >> fmt->Bshift; *b = (v << fmt->Bloss) + (v >> (8 - (fmt->Bloss << 1))); if (fmt->Amask) { v = (pixel & fmt->Amask) >> fmt->Ashift; *a = (v << fmt->Aloss) + (v >> (8 - (fmt->Aloss << 1))); } else { *a = SDL_ALPHA_OPAQUE; } } else { *r = fmt->palette->colors[pixel].r; *g = fmt->palette->colors[pixel].g; *b = fmt->palette->colors[pixel].b; *a = SDL_ALPHA_OPAQUE; } } void SDL_GetRGB(Uint32 pixel, SDL_PixelFormat * fmt, Uint8 * r, Uint8 * g, Uint8 * b) { if (fmt->palette == NULL) { /* the note for SDL_GetRGBA above applies here too */ unsigned v; v = (pixel & fmt->Rmask) >> fmt->Rshift; *r = (v << fmt->Rloss) + (v >> (8 - (fmt->Rloss << 1))); v = (pixel & fmt->Gmask) >> fmt->Gshift; *g = (v << fmt->Gloss) + (v >> (8 - (fmt->Gloss << 1))); v = (pixel & fmt->Bmask) >> fmt->Bshift; *b = (v << fmt->Bloss) + (v >> (8 - (fmt->Bloss << 1))); } else { *r = fmt->palette->colors[pixel].r; *g = fmt->palette->colors[pixel].g; *b = fmt->palette->colors[pixel].b; } } /* Apply gamma to a set of colors - this is easy. :) */ void SDL_ApplyGamma(Uint16 * gamma, SDL_Color * colors, SDL_Color * output, int ncolors) { int i; for (i = 0; i < ncolors; ++i) { output[i].r = gamma[0 * 256 + colors[i].r] >> 8; output[i].g = gamma[1 * 256 + colors[i].g] >> 8; output[i].b = gamma[2 * 256 + colors[i].b] >> 8; } } /* Map from Palette to Palette */ static Uint8 * Map1to1(SDL_Palette * src, SDL_Palette * dst, int *identical) { Uint8 *map; int i; if (identical) { if (src->ncolors <= dst->ncolors) { /* If an identical palette, no need to map */ if (src == dst || (SDL_memcmp (src->colors, dst->colors, src->ncolors * sizeof(SDL_Color)) == 0)) { *identical = 1; return (NULL); } } *identical = 0; } map = (Uint8 *) SDL_malloc(src->ncolors); if (map == NULL) { SDL_OutOfMemory(); return (NULL); } for (i = 0; i < src->ncolors; ++i) { map[i] = SDL_FindColor(dst, src->colors[i].r, src->colors[i].g, src->colors[i].b); } return (map); } /* Map from Palette to BitField */ static Uint8 * Map1toN(SDL_PixelFormat * src, SDL_PixelFormat * dst) { Uint8 *map; int i; int bpp; unsigned alpha; SDL_Palette *pal = src->palette; bpp = ((dst->BytesPerPixel == 3) ? 4 : dst->BytesPerPixel); map = (Uint8 *) SDL_malloc(pal->ncolors * bpp); if (map == NULL) { SDL_OutOfMemory(); return (NULL); } alpha = dst->Amask ? src->alpha : 0; /* We memory copy to the pixel map so the endianness is preserved */ for (i = 0; i < pal->ncolors; ++i) { ASSEMBLE_RGBA(&map[i * bpp], dst->BytesPerPixel, dst, pal->colors[i].r, pal->colors[i].g, pal->colors[i].b, alpha); } return (map); } /* Map from BitField to Dithered-Palette to Palette */ static Uint8 * MapNto1(SDL_PixelFormat * src, SDL_PixelFormat * dst, int *identical) { /* Generate a 256 color dither palette */ SDL_Palette dithered; SDL_Color colors[256]; SDL_Palette *pal = dst->palette; dithered.ncolors = 256; SDL_DitherColors(colors, 8); dithered.colors = colors; return (Map1to1(&dithered, pal, identical)); } SDL_BlitMap * SDL_AllocBlitMap(void) { SDL_BlitMap *map; /* Allocate the empty map */ map = (SDL_BlitMap *) SDL_calloc(1, sizeof(*map)); if (map == NULL) { SDL_OutOfMemory(); return (NULL); } /* Allocate the software blit data */ map->sw_data = (struct private_swaccel *) SDL_calloc(1, sizeof(*map->sw_data)); if (map->sw_data == NULL) { SDL_FreeBlitMap(map); SDL_OutOfMemory(); return (NULL); } /* It's ready to go */ return (map); } void SDL_InvalidateMap(SDL_BlitMap * map) { if (!map) { return; } map->dst = NULL; map->format_version = (unsigned int) -1; if (map->table) { SDL_free(map->table); map->table = NULL; } } int SDL_MapSurface(SDL_Surface * src, SDL_Surface * dst) { SDL_PixelFormat *srcfmt; SDL_PixelFormat *dstfmt; SDL_BlitMap *map; /* Clear out any previous mapping */ map = src->map; if ((src->flags & SDL_RLEACCEL) == SDL_RLEACCEL) { SDL_UnRLESurface(src, 1); } SDL_InvalidateMap(map); /* Figure out what kind of mapping we're doing */ map->identity = 0; srcfmt = src->format; dstfmt = dst->format; switch (srcfmt->BytesPerPixel) { case 1: switch (dstfmt->BytesPerPixel) { case 1: /* Palette --> Palette */ map->table = Map1to1(srcfmt->palette, dstfmt->palette, &map->identity); if (!map->identity) { if (map->table == NULL) { return (-1); } } if (srcfmt->BitsPerPixel != dstfmt->BitsPerPixel) map->identity = 0; break; default: /* Palette --> BitField */ map->table = Map1toN(srcfmt, dstfmt); if (map->table == NULL) { return (-1); } break; } break; default: switch (dstfmt->BytesPerPixel) { case 1: /* BitField --> Palette */ map->table = MapNto1(srcfmt, dstfmt, &map->identity); if (!map->identity) { if (map->table == NULL) { return (-1); } } map->identity = 0; /* Don't optimize to copy */ break; default: /* BitField --> BitField */ if (FORMAT_EQUAL(srcfmt, dstfmt)) map->identity = 1; break; } break; } map->dst = dst; map->format_version = dst->format_version; /* Choose your blitters wisely */ return (SDL_CalculateBlit(src)); } void SDL_FreeBlitMap(SDL_BlitMap * map) { if (map) { SDL_InvalidateMap(map); if (map->sw_data != NULL) { SDL_free(map->sw_data); } SDL_free(map); } } /* vi: set ts=4 sw=4 expandtab: */