/*****************************************************************************
* i420_rgb.h : YUV to bitmap RGB conversion module for vlc
*****************************************************************************
- * Copyright (C) 2000 VideoLAN
- * $Id: i420_rgb.h,v 1.1 2002/08/04 17:23:43 sam Exp $
+ * Copyright (C) 2000, 2004 the VideoLAN team
+ * $Id$
*
* Authors: Samuel Hocevar <sam@zoy.org>
*
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 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
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111, USA.
+ * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston MA 02110-1301, USA.
*****************************************************************************/
-/*****************************************************************************
- * chroma_sys_t: chroma method descriptor
- *****************************************************************************
+/** Number of entries in RGB palette/colormap */
+#define CMAP_RGB2_SIZE 256
+
+/**
+ * filter_sys_t: chroma method descriptor
+
* This structure is part of the chroma transformation descriptor, it
* describes the yuv2rgb specific properties.
- *****************************************************************************/
-struct chroma_sys_t
+ */
+struct filter_sys_t
{
- u8 *p_buffer;
+ uint8_t *p_buffer;
int *p_offset;
#ifdef MODULE_NAME_IS_i420_rgb
- /* Pre-calculated conversion tables */
- void *p_base; /* base for all conversion tables */
- u8 *p_rgb8; /* RGB 8 bits table */
- u16 *p_rgb16; /* RGB 16 bits table */
- u32 *p_rgb32; /* RGB 32 bits table */
+ /**< Pre-calculated conversion tables */
+ void *p_base; /**< base for all conversion tables */
+ uint8_t *p_rgb8; /**< RGB 8 bits table */
+ uint16_t *p_rgb16; /**< RGB 16 bits table */
+ uint32_t *p_rgb32; /**< RGB 32 bits table */
+
+ /**< To get RGB value for palette entry i, use (p_rgb_r[i], p_rgb_g[i],
+ p_rgb_b[i]). Note these are 16 bits per pixel. For 8bpp entries,
+ shift right 8 bits.
+ */
+ uint16_t p_rgb_r[CMAP_RGB2_SIZE]; /**< Red values of palette */
+ uint16_t p_rgb_g[CMAP_RGB2_SIZE]; /**< Green values of palette */
+ uint16_t p_rgb_b[CMAP_RGB2_SIZE]; /**< Blue values of palette */
#endif
};
* Prototypes
*****************************************************************************/
#ifdef MODULE_NAME_IS_i420_rgb
-void E_(I420_RGB8) ( vout_thread_t *, picture_t *, picture_t * );
+void I420_RGB8 ( filter_t *, picture_t *, picture_t * );
+void I420_RGB16_dither ( filter_t *, picture_t *, picture_t * );
+void I420_RGB16 ( filter_t *, picture_t *, picture_t * );
+void I420_RGB32 ( filter_t *, picture_t *, picture_t * );
+static picture_t *I420_RGB8_Filter ( filter_t *, picture_t * );
+static picture_t *I420_RGB16_dither_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 * );
+#else // if defined(MODULE_NAME_IS_i420_rgb_mmx)
+void I420_R5G5B5 ( filter_t *, picture_t *, picture_t * );
+void I420_R5G6B5 ( filter_t *, picture_t *, picture_t * );
+void I420_A8R8G8B8 ( filter_t *, picture_t *, picture_t * );
+void I420_R8G8B8A8 ( filter_t *, picture_t *, picture_t * );
+void I420_B8G8R8A8 ( filter_t *, picture_t *, picture_t * );
+void I420_A8B8G8R8 ( filter_t *, picture_t *, picture_t * );
+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
-void E_(I420_RGB15)( vout_thread_t *, picture_t *, picture_t * );
-void E_(I420_RGB16)( vout_thread_t *, picture_t *, picture_t * );
-void E_(I420_RGB32)( vout_thread_t *, picture_t *, picture_t * );
/*****************************************************************************
* CONVERT_*_PIXEL: pixel conversion macros
i_blue = (U_BLUE_COEF * i_uval) >> SHIFT; \
CONVERT_Y_PIXEL( BPP ) \
+#define CONVERT_Y_PIXEL_DITHER( BPP ) \
+ /* Only Y sample is present */ \
+ p_ybase = p_yuv + *p_y++; \
+ *p_buffer++ = p_ybase[RED_OFFSET-((V_RED_COEF*128+p_dither[i_real_y])>>SHIFT) + i_red] | \
+ p_ybase[GREEN_OFFSET-(((U_GREEN_COEF+V_GREEN_COEF)*128+p_dither[i_real_y])>>SHIFT) \
+ + i_green ] | p_ybase[BLUE_OFFSET-((U_BLUE_COEF*128+p_dither[i_real_y])>>SHIFT) + i_blue];
+
+#define CONVERT_YUV_PIXEL_DITHER( BPP ) \
+ /* Y, U and V samples are present */ \
+ i_uval = *p_u++; \
+ i_vval = *p_v++; \
+ i_red = (V_RED_COEF * i_vval) >> SHIFT; \
+ i_green = (U_GREEN_COEF * i_uval + V_GREEN_COEF * i_vval) >> SHIFT; \
+ i_blue = (U_BLUE_COEF * i_uval) >> SHIFT; \
+ CONVERT_Y_PIXEL_DITHER( BPP ) \
+
#define CONVERT_4YUV_PIXEL( CHROMA ) \
*p_pic++ = p_lookup[ \
(((*p_y++ + dither10[i_real_y]) >> 4) << 7) \
* Rewind buffer and offset, then copy and scale line */ \
p_buffer = p_buffer_start; \
p_offset = p_offset_start; \
- for( i_x = p_vout->output.i_width / 16; i_x--; ) \
+ for( i_x = p_filter->fmt_out.video.i_width / 16; i_x--; ) \
{ \
*p_pic++ = *p_buffer; p_buffer += *p_offset++; \
*p_pic++ = *p_buffer; p_buffer += *p_offset++; \
*p_pic++ = *p_buffer; p_buffer += *p_offset++; \
*p_pic++ = *p_buffer; p_buffer += *p_offset++; \
} \
- for( i_x = p_vout->output.i_width & 15; i_x--; ) \
+ for( i_x = p_filter->fmt_out.video.i_width & 15; i_x--; ) \
{ \
*p_pic++ = *p_buffer; p_buffer += *p_offset++; \
} \
- p_pic += i_right_margin; \
+ p_pic = (void*)((uint8_t*)p_pic + i_right_margin ); \
} \
else \
{ \
/* No scaling, conversion has been done directly in picture memory. \
* Increment of picture pointer to end of line is still needed */ \
- (u8*)p_pic += p_dest->p->i_pitch; \
+ p_pic = (void*)((uint8_t*)p_pic + p_dest->p->i_pitch ); \
} \
/*****************************************************************************
{ \
/* Horizontal scaling - we can't use a buffer due to dithering */ \
p_offset = p_offset_start; \
- for( i_x = p_vout->output.i_width / 16; i_x--; ) \
+ for( i_x = p_filter->fmt_out.video.i_width / 16; i_x--; ) \
{ \
CONVERT_4YUV_PIXEL_SCALE( CHROMA ) \
CONVERT_4YUV_PIXEL_SCALE( CHROMA ) \
} \
else \
{ \
- for( i_x = p_vout->render.i_width / 16; i_x--; ) \
+ for( i_x = p_filter->fmt_in.video.i_width / 16; i_x--; ) \
{ \
CONVERT_4YUV_PIXEL( CHROMA ) \
CONVERT_4YUV_PIXEL( CHROMA ) \
} \
} \
/* Increment of picture pointer to end of line is still needed */ \
- p_pic += i_right_margin; \
+ p_pic = (void*)((uint8_t*)p_pic + i_right_margin ); \
\
/* Increment the Y coordinate in the matrix, modulo 4 */ \
i_real_y = (i_real_y + 1) & 0x3; \
switch( i_vscale ) \
{ \
case -1: /* vertical scaling factor is < 1 */ \
- while( (i_scale_count -= p_vout->output.i_height) > 0 ) \
+ while( (i_scale_count -= p_filter->fmt_out.video.i_height) > 0 ) \
{ \
/* Height reduction: skip next source line */ \
- p_y += p_vout->render.i_width; \
+ p_y += p_filter->fmt_in.video.i_width; \
i_y++; \
if( (CHROMA == 420) || (CHROMA == 422) ) \
{ \
} \
else if( CHROMA == 444 ) \
{ \
- p_u += p_vout->render.i_width; \
- p_v += p_vout->render.i_width; \
+ p_u += p_filter->fmt_in.video.i_width; \
+ p_v += p_filter->fmt_in.video.i_width; \
} \
} \
- i_scale_count += p_vout->render.i_height; \
+ i_scale_count += p_filter->fmt_in.video.i_height; \
break; \
case 1: /* vertical scaling factor is > 1 */ \
- while( (i_scale_count -= p_vout->render.i_height) > 0 ) \
+ while( (i_scale_count -= p_filter->fmt_in.video.i_height) > 0 ) \
{ \
/* Height increment: copy previous picture line */ \
- p_vout->p_vlc->pf_memcpy( p_pic, p_pic_start, \
- p_vout->output.i_width * BPP ); \
- (u8*)p_pic += p_dest->p->i_pitch; \
+ vlc_memcpy( p_pic, p_pic_start, p_filter->fmt_out.video.i_width * BPP ); \
+ p_pic = (void*)((uint8_t*)p_pic + p_dest->p->i_pitch ); \
} \
- i_scale_count += p_vout->output.i_height; \
+ i_scale_count += p_filter->fmt_out.video.i_height; \
break; \
} \
switch( i_vscale ) \
{ \
case -1: /* vertical scaling factor is < 1 */ \
- while( (i_scale_count -= p_vout->output.i_height) > 0 ) \
+ while( (i_scale_count -= p_filter->fmt_out.video.i_height) > 0 ) \
{ \
/* Height reduction: skip next source line */ \
- p_y += p_vout->render.i_width; \
+ p_y += p_filter->fmt_in.video.i_width; \
i_y++; \
if( (CHROMA == 420) || (CHROMA == 422) ) \
{ \
} \
else if( CHROMA == 444 ) \
{ \
- p_u += p_vout->render.i_width; \
- p_v += p_vout->render.i_width; \
+ p_u += p_filter->fmt_in.video.i_width; \
+ p_v += p_filter->fmt_in.video.i_width; \
} \
} \
- i_scale_count += p_vout->render.i_height; \
+ i_scale_count += p_filter->fmt_in.video.i_height; \
break; \
case 1: /* vertical scaling factor is > 1 */ \
- while( (i_scale_count -= p_vout->render.i_height) > 0 ) \
+ while( (i_scale_count -= p_filter->fmt_in.video.i_height) > 0 ) \
{ \
- p_y -= p_vout->render.i_width; \
+ p_y -= p_filter->fmt_in.video.i_width; \
p_u -= i_chroma_width; \
p_v -= i_chroma_width; \
SCALE_WIDTH_DITHER( CHROMA ); \
} \
- i_scale_count += p_vout->output.i_height; \
+ i_scale_count += p_filter->fmt_out.video.i_height; \
break; \
} \