Mercurial > sdl-ios-xcode
view src/video/SDL_fillrect.c @ 3468:789b97008d8a
My first OpenGL shader! Momma will be so proud!
This shader implements the software renderer mask semantics where the source pixel is multiplied by the color and alpha modulation values and then any pixel with non-zero alpha is fully opaque.
The OpenGL renderer on Mac OS X now passes all the automated render tests! :)
| author | Sam Lantinga <slouken@libsdl.org> |
|---|---|
| date | Sat, 21 Nov 2009 05:29:31 +0000 |
| parents | 7e30c2dc7783 |
| children | 0267b8b1595c |
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/* SDL - Simple DirectMedia Layer Copyright (C) 1997-2009 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" #include "SDL_video.h" #include "SDL_blit.h" #ifdef __SSE__ /* *INDENT-OFF* */ #ifdef _MSC_VER #define SSE_BEGIN \ __m128 c128; \ c128.m128_u32[0] = color; \ c128.m128_u32[1] = color; \ c128.m128_u32[2] = color; \ c128.m128_u32[3] = color; #else #define SSE_BEGIN \ DECLARE_ALIGNED(Uint32, cccc[4], 16); \ cccc[0] = color; \ cccc[1] = color; \ cccc[2] = color; \ cccc[3] = color; \ __m128 c128 = *(__m128 *)cccc; #endif #define SSE_WORK \ for (i = n / 64; i--;) { \ _mm_stream_ps((float *)(p+0), c128); \ _mm_stream_ps((float *)(p+16), c128); \ _mm_stream_ps((float *)(p+32), c128); \ _mm_stream_ps((float *)(p+48), c128); \ p += 64; \ } #define SSE_END #define DEFINE_SSE_FILLRECT(bpp, type) \ static void \ SDL_FillRect##bpp##SSE(Uint8 *pixels, int pitch, Uint32 color, int w, int h) \ { \ SSE_BEGIN; \ \ while (h--) { \ int i, n = w * bpp; \ Uint8 *p = pixels; \ \ if (n > 63) { \ int adjust = 16 - ((uintptr_t)p & 15); \ if (adjust < 16) { \ n -= adjust; \ adjust /= bpp; \ while (adjust--) { \ *((type *)p) = (type)color; \ p += bpp; \ } \ } \ SSE_WORK; \ } \ if (n & 63) { \ int remainder = (n & 63); \ remainder /= bpp; \ while (remainder--) { \ *((type *)p) = (type)color; \ p += bpp; \ } \ } \ pixels += pitch; \ } \ \ SSE_END; \ } static void SDL_FillRect1SSE(Uint8 *pixels, int pitch, Uint32 color, int w, int h) { SSE_BEGIN; while (h--) { int i, n = w; Uint8 *p = pixels; if (n > 63) { int adjust = 16 - ((uintptr_t)p & 15); if (adjust) { n -= adjust; SDL_memset(p, color, adjust); p += adjust; } SSE_WORK; } if (n & 63) { int remainder = (n & 63); SDL_memset(p, color, remainder); p += remainder; } pixels += pitch; } SSE_END; } /*DEFINE_SSE_FILLRECT(1, Uint8)*/ DEFINE_SSE_FILLRECT(2, Uint16) DEFINE_SSE_FILLRECT(4, Uint32) /* *INDENT-ON* */ #endif /* __SSE__ */ #ifdef __MMX__ /* *INDENT-OFF* */ #define MMX_BEGIN \ __m64 c64 = _mm_set_pi32(color, color) #define MMX_WORK \ for (i = n / 64; i--;) { \ _mm_stream_pi((__m64 *)(p+0), c64); \ _mm_stream_pi((__m64 *)(p+8), c64); \ _mm_stream_pi((__m64 *)(p+16), c64); \ _mm_stream_pi((__m64 *)(p+24), c64); \ _mm_stream_pi((__m64 *)(p+32), c64); \ _mm_stream_pi((__m64 *)(p+40), c64); \ _mm_stream_pi((__m64 *)(p+48), c64); \ _mm_stream_pi((__m64 *)(p+56), c64); \ p += 64; \ } #define MMX_END \ _mm_empty() #define DEFINE_MMX_FILLRECT(bpp, type) \ static void \ SDL_FillRect##bpp##MMX(Uint8 *pixels, int pitch, Uint32 color, int w, int h) \ { \ MMX_BEGIN; \ \ while (h--) { \ int i, n = w * bpp; \ Uint8 *p = pixels; \ \ if (n > 63) { \ int adjust = 8 - ((uintptr_t)p & 7); \ if (adjust < 8) { \ n -= adjust; \ adjust /= bpp; \ while (adjust--) { \ *((type *)p) = (type)color; \ p += bpp; \ } \ } \ MMX_WORK; \ } \ if (n & 63) { \ int remainder = (n & 63); \ remainder /= bpp; \ while (remainder--) { \ *((type *)p) = (type)color; \ p += bpp; \ } \ } \ pixels += pitch; \ } \ \ MMX_END; \ } static void SDL_FillRect1MMX(Uint8 *pixels, int pitch, Uint32 color, int w, int h) { MMX_BEGIN; while (h--) { int i, n = w; Uint8 *p = pixels; if (n > 63) { int adjust = 8 - ((uintptr_t)p & 7); if (adjust) { n -= adjust; SDL_memset(p, color, adjust); p += adjust; } MMX_WORK; } if (n & 63) { int remainder = (n & 63); SDL_memset(p, color, remainder); p += remainder; } pixels += pitch; } MMX_END; } /*DEFINE_MMX_FILLRECT(1, Uint8)*/ DEFINE_MMX_FILLRECT(2, Uint16) DEFINE_MMX_FILLRECT(4, Uint32) /* *INDENT-ON* */ #endif /* __MMX__ */ static void SDL_FillRect1(Uint8 * pixels, int pitch, Uint32 color, int w, int h) { while (h--) { int n = w; Uint8 *p = pixels; if (n > 3) { switch ((uintptr_t) p & 3) { case 1: *p++ = (Uint8) color; --n; case 2: *p++ = (Uint8) color; --n; case 3: *p++ = (Uint8) color; --n; } SDL_memset4(p, color, (n >> 2)); } if (n & 3) { p += (n & ~3); switch (n & 3) { case 3: *p++ = (Uint8) color; case 2: *p++ = (Uint8) color; case 1: *p++ = (Uint8) color; } } pixels += pitch; } } static void SDL_FillRect2(Uint8 * pixels, int pitch, Uint32 color, int w, int h) { while (h--) { int n = w; Uint16 *p = (Uint16 *) pixels; if (n > 1) { if ((uintptr_t) p & 2) { *p++ = (Uint16) color; --n; } SDL_memset4(p, color, (n >> 1)); } if (n & 1) { p[n - 1] = (Uint16) color; } pixels += pitch; } } static void SDL_FillRect3(Uint8 * pixels, int pitch, Uint32 color, int w, int h) { Uint8 r = (Uint8) ((color >> 16) & 0xFF); Uint8 g = (Uint8) ((color >> 8) & 0xFF); Uint8 b = (Uint8) (color & 0xFF); while (h--) { int n = w; Uint8 *p = pixels; while (n--) { *p++ = r; *p++ = g; *p++ = b; } pixels += pitch; } } static void SDL_FillRect4(Uint8 * pixels, int pitch, Uint32 color, int w, int h) { while (h--) { SDL_memset4(pixels, color, w); pixels += pitch; } } /* * This function performs a fast fill of the given rectangle with 'color' */ int SDL_FillRect(SDL_Surface * dst, SDL_Rect * dstrect, Uint32 color) { Uint8 *pixels; /* This function doesn't work on surfaces < 8 bpp */ if (dst->format->BitsPerPixel < 8) { SDL_SetError("SDL_FillRect(): Unsupported surface format"); return (-1); } /* If 'dstrect' == NULL, then fill the whole surface */ if (dstrect) { /* Perform clipping */ if (!SDL_IntersectRect(dstrect, &dst->clip_rect, dstrect)) { return (0); } } else { dstrect = &dst->clip_rect; } /* Perform software fill */ if (!dst->pixels) { SDL_SetError("SDL_FillRect(): You must lock the surface"); return (-1); } pixels = (Uint8 *) dst->pixels + dstrect->y * dst->pitch + dstrect->x * dst->format->BytesPerPixel; switch (dst->format->BytesPerPixel) { case 1: { color |= (color << 8); color |= (color << 16); #ifdef __SSE__ if (SDL_HasSSE()) { SDL_FillRect1SSE(pixels, dst->pitch, color, dstrect->w, dstrect->h); break; } #endif #ifdef __MMX__ if (SDL_HasMMX()) { SDL_FillRect1MMX(pixels, dst->pitch, color, dstrect->w, dstrect->h); break; } #endif SDL_FillRect1(pixels, dst->pitch, color, dstrect->w, dstrect->h); break; } case 2: { color |= (color << 16); #ifdef __SSE__ if (SDL_HasSSE()) { SDL_FillRect2SSE(pixels, dst->pitch, color, dstrect->w, dstrect->h); break; } #endif #ifdef __MMX__ if (SDL_HasMMX()) { SDL_FillRect2MMX(pixels, dst->pitch, color, dstrect->w, dstrect->h); break; } #endif SDL_FillRect2(pixels, dst->pitch, color, dstrect->w, dstrect->h); break; } case 3: /* 24-bit RGB is a slow path, at least for now. */ { SDL_FillRect3(pixels, dst->pitch, color, dstrect->w, dstrect->h); break; } case 4: { #ifdef __SSE__ if (SDL_HasSSE()) { SDL_FillRect4SSE(pixels, dst->pitch, color, dstrect->w, dstrect->h); break; } #endif #ifdef __MMX__ if (SDL_HasMMX()) { SDL_FillRect4MMX(pixels, dst->pitch, color, dstrect->w, dstrect->h); break; } #endif SDL_FillRect4(pixels, dst->pitch, color, dstrect->w, dstrect->h); break; } } /* We're done! */ return (0); } /* vi: set ts=4 sw=4 expandtab: */