/***************************************************************************** * i420_rgb.c : YUV to bitmap RGB conversion module for vlc ***************************************************************************** * Copyright (C) 2000, 2001, 2004, 2008 VLC authors and VideoLAN * $Id$ * * Authors: Sam Hocevar * Damien Fouilleul * * This program 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 program 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 program; if not, write to the Free Software Foundation, * Inc., 51 Franklin Street, Fifth Floor, Boston MA 02110-1301, USA. *****************************************************************************/ /***************************************************************************** * Preamble *****************************************************************************/ #ifdef HAVE_CONFIG_H # include "config.h" #endif #include /* exp(), pow() */ #include #include #include #include #include #include "i420_rgb.h" #ifdef PLAIN # include "i420_rgb_c.h" static picture_t *I420_RGB8_Filter( filter_t *, picture_t * ); static picture_t *I420_RGB16_Filter( filter_t *, picture_t * ); static picture_t *I420_RGB32_Filter( filter_t *, picture_t * ); static void SetGammaTable( int *pi_table, double f_gamma ); static void SetYUV( filter_t * ); static void Set8bppPalette( filter_t *, uint8_t * ); #else static picture_t *I420_R5G5B5_Filter( filter_t *, picture_t * ); static picture_t *I420_R5G6B5_Filter( filter_t *, picture_t * ); static picture_t *I420_A8R8G8B8_Filter( filter_t *, picture_t * ); static picture_t *I420_R8G8B8A8_Filter( filter_t *, picture_t * ); static picture_t *I420_B8G8R8A8_Filter( filter_t *, picture_t * ); static picture_t *I420_A8B8G8R8_Filter( filter_t *, picture_t * ); #endif /***************************************************************************** * RGB2PIXEL: assemble RGB components to a pixel value, returns a uint32_t *****************************************************************************/ #define RGB2PIXEL( p_filter, i_r, i_g, i_b ) \ (((((uint32_t)i_r) >> p_filter->fmt_out.video.i_rrshift) \ << p_filter->fmt_out.video.i_lrshift) \ | ((((uint32_t)i_g) >> p_filter->fmt_out.video.i_rgshift) \ << p_filter->fmt_out.video.i_lgshift) \ | ((((uint32_t)i_b) >> p_filter->fmt_out.video.i_rbshift) \ << p_filter->fmt_out.video.i_lbshift)) /***************************************************************************** * Module descriptor. *****************************************************************************/ static int Activate ( vlc_object_t * ); static void Deactivate ( vlc_object_t * ); vlc_module_begin () #if defined (SSE2) set_description( N_( "SSE2 I420,IYUV,YV12 to " "RV15,RV16,RV24,RV32 conversions") ) set_capability( "video converter", 120 ) # define vlc_CPU_capable() vlc_CPU_SSE2() #elif defined (MMX) set_description( N_( "MMX I420,IYUV,YV12 to " "RV15,RV16,RV24,RV32 conversions") ) set_capability( "video converter", 100 ) # define vlc_CPU_capable() vlc_CPU_MMX() #else set_description( N_("I420,IYUV,YV12 to " "RGB2,RV15,RV16,RV24,RV32 conversions") ) set_capability( "video converter", 80 ) # define vlc_CPU_capable() (true) #endif set_callbacks( Activate, Deactivate ) vlc_module_end () /***************************************************************************** * Activate: allocate a chroma function ***************************************************************************** * This function allocates and initializes a chroma function *****************************************************************************/ static int Activate( vlc_object_t *p_this ) { filter_t *p_filter = (filter_t *)p_this; #ifdef PLAIN size_t i_tables_size; #endif if( !vlc_CPU_capable() ) return VLC_EGENERIC; if( p_filter->fmt_out.video.i_width & 1 || p_filter->fmt_out.video.i_height & 1 ) { return VLC_EGENERIC; } if( p_filter->fmt_in.video.orientation != p_filter->fmt_out.video.orientation ) { return VLC_EGENERIC; } switch( p_filter->fmt_in.video.i_chroma ) { case VLC_CODEC_YV12: case VLC_CODEC_I420: switch( p_filter->fmt_out.video.i_chroma ) { #ifndef PLAIN case VLC_CODEC_RGB15: case VLC_CODEC_RGB16: /* If we don't have support for the bitmasks, bail out */ if( ( p_filter->fmt_out.video.i_rmask == 0x7c00 && p_filter->fmt_out.video.i_gmask == 0x03e0 && p_filter->fmt_out.video.i_bmask == 0x001f ) ) { /* R5G5B6 pixel format */ msg_Dbg(p_this, "RGB pixel format is R5G5B5"); p_filter->pf_video_filter = I420_R5G5B5_Filter; } else if( ( p_filter->fmt_out.video.i_rmask == 0xf800 && p_filter->fmt_out.video.i_gmask == 0x07e0 && p_filter->fmt_out.video.i_bmask == 0x001f ) ) { /* R5G6B5 pixel format */ msg_Dbg(p_this, "RGB pixel format is R5G6B5"); p_filter->pf_video_filter = I420_R5G6B5_Filter; } else return VLC_EGENERIC; break; case VLC_CODEC_RGB32: /* If we don't have support for the bitmasks, bail out */ if( p_filter->fmt_out.video.i_rmask == 0x00ff0000 && p_filter->fmt_out.video.i_gmask == 0x0000ff00 && p_filter->fmt_out.video.i_bmask == 0x000000ff ) { /* A8R8G8B8 pixel format */ msg_Dbg(p_this, "RGB pixel format is A8R8G8B8"); p_filter->pf_video_filter = I420_A8R8G8B8_Filter; } else if( p_filter->fmt_out.video.i_rmask == 0xff000000 && p_filter->fmt_out.video.i_gmask == 0x00ff0000 && p_filter->fmt_out.video.i_bmask == 0x0000ff00 ) { /* R8G8B8A8 pixel format */ msg_Dbg(p_this, "RGB pixel format is R8G8B8A8"); p_filter->pf_video_filter = I420_R8G8B8A8_Filter; } else if( p_filter->fmt_out.video.i_rmask == 0x0000ff00 && p_filter->fmt_out.video.i_gmask == 0x00ff0000 && p_filter->fmt_out.video.i_bmask == 0xff000000 ) { /* B8G8R8A8 pixel format */ msg_Dbg(p_this, "RGB pixel format is B8G8R8A8"); p_filter->pf_video_filter = I420_B8G8R8A8_Filter; } else if( p_filter->fmt_out.video.i_rmask == 0x000000ff && p_filter->fmt_out.video.i_gmask == 0x0000ff00 && p_filter->fmt_out.video.i_bmask == 0x00ff0000 ) { /* A8B8G8R8 pixel format */ msg_Dbg(p_this, "RGB pixel format is A8B8G8R8"); p_filter->pf_video_filter = I420_A8B8G8R8_Filter; } else return VLC_EGENERIC; break; #else case VLC_CODEC_RGB8: p_filter->pf_video_filter = I420_RGB8_Filter; break; case VLC_CODEC_RGB15: case VLC_CODEC_RGB16: p_filter->pf_video_filter = I420_RGB16_Filter; break; case VLC_CODEC_RGB32: p_filter->pf_video_filter = I420_RGB32_Filter; break; #endif default: return VLC_EGENERIC; } break; default: return VLC_EGENERIC; } p_filter->p_sys = malloc( sizeof( filter_sys_t ) ); if( p_filter->p_sys == NULL ) { return VLC_EGENERIC; } switch( p_filter->fmt_out.video.i_chroma ) { #ifdef PLAIN case VLC_CODEC_RGB8: p_filter->p_sys->p_buffer = malloc( VOUT_MAX_WIDTH ); break; #endif case VLC_CODEC_RGB15: case VLC_CODEC_RGB16: p_filter->p_sys->p_buffer = malloc( VOUT_MAX_WIDTH * 2 ); break; case VLC_CODEC_RGB24: case VLC_CODEC_RGB32: p_filter->p_sys->p_buffer = malloc( VOUT_MAX_WIDTH * 4 ); break; default: p_filter->p_sys->p_buffer = NULL; break; } if( p_filter->p_sys->p_buffer == NULL ) { free( p_filter->p_sys ); return VLC_EGENERIC; } p_filter->p_sys->p_offset = malloc( p_filter->fmt_out.video.i_width * ( ( p_filter->fmt_out.video.i_chroma == VLC_CODEC_RGB8 ) ? 2 : 1 ) * sizeof( int ) ); if( p_filter->p_sys->p_offset == NULL ) { free( p_filter->p_sys->p_buffer ); free( p_filter->p_sys ); return VLC_EGENERIC; } #ifdef PLAIN switch( p_filter->fmt_out.video.i_chroma ) { case VLC_CODEC_RGB8: i_tables_size = sizeof( uint8_t ) * PALETTE_TABLE_SIZE; break; case VLC_CODEC_RGB15: case VLC_CODEC_RGB16: i_tables_size = sizeof( uint16_t ) * RGB_TABLE_SIZE; break; default: /* RV24, RV32 */ i_tables_size = sizeof( uint32_t ) * RGB_TABLE_SIZE; break; } p_filter->p_sys->p_base = malloc( i_tables_size ); if( p_filter->p_sys->p_base == NULL ) { free( p_filter->p_sys->p_offset ); free( p_filter->p_sys->p_buffer ); free( p_filter->p_sys ); return -1; } SetYUV( p_filter ); #endif return 0; } /***************************************************************************** * Deactivate: free the chroma function ***************************************************************************** * This function frees the previously allocated chroma function *****************************************************************************/ static void Deactivate( vlc_object_t *p_this ) { filter_t *p_filter = (filter_t *)p_this; #ifdef PLAIN free( p_filter->p_sys->p_base ); #endif free( p_filter->p_sys->p_offset ); free( p_filter->p_sys->p_buffer ); free( p_filter->p_sys ); } #ifndef PLAIN VIDEO_FILTER_WRAPPER( I420_R5G5B5 ) VIDEO_FILTER_WRAPPER( I420_R5G6B5 ) VIDEO_FILTER_WRAPPER( I420_A8R8G8B8 ) VIDEO_FILTER_WRAPPER( I420_R8G8B8A8 ) VIDEO_FILTER_WRAPPER( I420_B8G8R8A8 ) VIDEO_FILTER_WRAPPER( I420_A8B8G8R8 ) #else VIDEO_FILTER_WRAPPER( I420_RGB8 ) VIDEO_FILTER_WRAPPER( I420_RGB16 ) VIDEO_FILTER_WRAPPER( I420_RGB32 ) /***************************************************************************** * SetGammaTable: return intensity table transformed by gamma curve. ***************************************************************************** * pi_table is a table of 256 entries from 0 to 255. *****************************************************************************/ static void SetGammaTable( int *pi_table, double f_gamma ) { int i_y; /* base intensity */ /* Use exp(gamma) instead of gamma */ f_gamma = exp( f_gamma ); /* Build gamma table */ for( i_y = 0; i_y < 256; i_y++ ) { pi_table[ i_y ] = (int)( pow( (double)i_y / 256, f_gamma ) * 256 ); } } /***************************************************************************** * SetYUV: compute tables and set function pointers *****************************************************************************/ static void SetYUV( filter_t *p_filter ) { int pi_gamma[256]; /* gamma table */ volatile int i_index; /* index in tables */ /* We use volatile here to work around a strange gcc-3.3.4 * optimization bug */ /* Build gamma table */ SetGammaTable( pi_gamma, 0 ); //p_filter/*FIXME wasn't used anywhere anyway*/->f_gamma ); /* * Set pointers and build YUV tables */ /* Color: build red, green and blue tables */ switch( p_filter->fmt_out.video.i_chroma ) { case VLC_CODEC_RGB8: p_filter->p_sys->p_rgb8 = (uint8_t *)p_filter->p_sys->p_base; Set8bppPalette( p_filter, p_filter->p_sys->p_rgb8 ); break; case VLC_CODEC_RGB15: case VLC_CODEC_RGB16: p_filter->p_sys->p_rgb16 = (uint16_t *)p_filter->p_sys->p_base; for( i_index = 0; i_index < RED_MARGIN; i_index++ ) { p_filter->p_sys->p_rgb16[RED_OFFSET - RED_MARGIN + i_index] = RGB2PIXEL( p_filter, pi_gamma[0], 0, 0 ); p_filter->p_sys->p_rgb16[RED_OFFSET + 256 + i_index] = RGB2PIXEL( p_filter, pi_gamma[255], 0, 0 ); } for( i_index = 0; i_index < GREEN_MARGIN; i_index++ ) { p_filter->p_sys->p_rgb16[GREEN_OFFSET - GREEN_MARGIN + i_index] = RGB2PIXEL( p_filter, 0, pi_gamma[0], 0 ); p_filter->p_sys->p_rgb16[GREEN_OFFSET + 256 + i_index] = RGB2PIXEL( p_filter, 0, pi_gamma[255], 0 ); } for( i_index = 0; i_index < BLUE_MARGIN; i_index++ ) { p_filter->p_sys->p_rgb16[BLUE_OFFSET - BLUE_MARGIN + i_index] = RGB2PIXEL( p_filter, 0, 0, pi_gamma[0] ); p_filter->p_sys->p_rgb16[BLUE_OFFSET + BLUE_MARGIN + i_index] = RGB2PIXEL( p_filter, 0, 0, pi_gamma[255] ); } for( i_index = 0; i_index < 256; i_index++ ) { p_filter->p_sys->p_rgb16[RED_OFFSET + i_index] = RGB2PIXEL( p_filter, pi_gamma[ i_index ], 0, 0 ); p_filter->p_sys->p_rgb16[GREEN_OFFSET + i_index] = RGB2PIXEL( p_filter, 0, pi_gamma[ i_index ], 0 ); p_filter->p_sys->p_rgb16[BLUE_OFFSET + i_index] = RGB2PIXEL( p_filter, 0, 0, pi_gamma[ i_index ] ); } break; case VLC_CODEC_RGB24: case VLC_CODEC_RGB32: p_filter->p_sys->p_rgb32 = (uint32_t *)p_filter->p_sys->p_base; for( i_index = 0; i_index < RED_MARGIN; i_index++ ) { p_filter->p_sys->p_rgb32[RED_OFFSET - RED_MARGIN + i_index] = RGB2PIXEL( p_filter, pi_gamma[0], 0, 0 ); p_filter->p_sys->p_rgb32[RED_OFFSET + 256 + i_index] = RGB2PIXEL( p_filter, pi_gamma[255], 0, 0 ); } for( i_index = 0; i_index < GREEN_MARGIN; i_index++ ) { p_filter->p_sys->p_rgb32[GREEN_OFFSET - GREEN_MARGIN + i_index] = RGB2PIXEL( p_filter, 0, pi_gamma[0], 0 ); p_filter->p_sys->p_rgb32[GREEN_OFFSET + 256 + i_index] = RGB2PIXEL( p_filter, 0, pi_gamma[255], 0 ); } for( i_index = 0; i_index < BLUE_MARGIN; i_index++ ) { p_filter->p_sys->p_rgb32[BLUE_OFFSET - BLUE_MARGIN + i_index] = RGB2PIXEL( p_filter, 0, 0, pi_gamma[0] ); p_filter->p_sys->p_rgb32[BLUE_OFFSET + BLUE_MARGIN + i_index] = RGB2PIXEL( p_filter, 0, 0, pi_gamma[255] ); } for( i_index = 0; i_index < 256; i_index++ ) { p_filter->p_sys->p_rgb32[RED_OFFSET + i_index] = RGB2PIXEL( p_filter, pi_gamma[ i_index ], 0, 0 ); p_filter->p_sys->p_rgb32[GREEN_OFFSET + i_index] = RGB2PIXEL( p_filter, 0, pi_gamma[ i_index ], 0 ); p_filter->p_sys->p_rgb32[BLUE_OFFSET + i_index] = RGB2PIXEL( p_filter, 0, 0, pi_gamma[ i_index ] ); } break; } } static void Set8bppPalette( filter_t *p_filter, uint8_t *p_rgb8 ) { #define CLIP( x ) ( ((x < 0) ? 0 : (x > 255) ? 255 : x) << 8 ) int y,u,v; int r,g,b; int i = 0, j = 0; uint16_t *p_cmap_r = p_filter->p_sys->p_rgb_r; uint16_t *p_cmap_g = p_filter->p_sys->p_rgb_g; uint16_t *p_cmap_b = p_filter->p_sys->p_rgb_b; unsigned char p_lookup[PALETTE_TABLE_SIZE]; /* This loop calculates the intersection of an YUV box and the RGB cube. */ for ( y = 0; y <= 256; y += 16, i += 128 - 81 ) { for ( u = 0; u <= 256; u += 32 ) { for ( v = 0; v <= 256; v += 32 ) { r = y + ( (V_RED_COEF*(v-128)) >> SHIFT ); g = y + ( (U_GREEN_COEF*(u-128) + V_GREEN_COEF*(v-128)) >> SHIFT ); b = y + ( (U_BLUE_COEF*(u-128)) >> SHIFT ); if( r >= 0x00 && g >= 0x00 && b >= 0x00 && r <= 0xff && g <= 0xff && b <= 0xff ) { /* This one should never happen unless someone * fscked up my code */ if( j == 256 ) { msg_Err( p_filter, "no colors left in palette" ); break; } /* Clip the colors */ p_cmap_r[ j ] = CLIP( r ); p_cmap_g[ j ] = CLIP( g ); p_cmap_b[ j ] = CLIP( b ); #if 0 printf("+++Alloc RGB cmap %d (%d, %d, %d)\n", j, p_cmap_r[ j ] >>8, p_cmap_g[ j ] >>8, p_cmap_b[ j ] >>8); #endif /* Allocate color */ p_lookup[ i ] = 1; p_rgb8[ i++ ] = j; j++; } else { p_lookup[ i ] = 0; p_rgb8[ i++ ] = 0; } } } } /* The colors have been allocated, we can set the palette */ /* FIXME FIXME FIXME FIXME FIXME FIXME FIXME FIXME FIXME p_filter->fmt_out.video.pf_setpalette( p_filter, p_cmap_r, p_cmap_g, p_cmap_b );*/ #if 0 /* There will eventually be a way to know which colors * couldn't be allocated and try to find a replacement */ p_vout->i_white_pixel = 0xff; p_vout->i_black_pixel = 0x00; p_vout->i_gray_pixel = 0x44; p_vout->i_blue_pixel = 0x3b; #endif /* This loop allocates colors that got outside the RGB cube */ for ( i = 0, y = 0; y <= 256; y += 16, i += 128 - 81 ) { for ( u = 0; u <= 256; u += 32 ) { for ( v = 0; v <= 256; v += 32, i++ ) { int u2, v2, dist, mindist = 100000000; if( p_lookup[ i ] || y == 0 ) { continue; } /* Heavy. yeah. */ for( u2 = 0; u2 <= 256; u2 += 32 ) { for( v2 = 0; v2 <= 256; v2 += 32 ) { j = ((y>>4)<<7) + (u2>>5)*9 + (v2>>5); dist = (u-u2)*(u-u2) + (v-v2)*(v-v2); /* Find the nearest color */ if( p_lookup[ j ] && dist < mindist ) { p_rgb8[ i ] = p_rgb8[ j ]; mindist = dist; } j -= 128; /* Find the nearest color */ if( p_lookup[ j ] && dist + 128 < mindist ) { p_rgb8[ i ] = p_rgb8[ j ]; mindist = dist + 128; } } } } } } } #endif