/***************************************************************************** * i420_rgb16.c : YUV to bitmap RGB conversion module for vlc ***************************************************************************** * Copyright (C) 2000 VLC authors and VideoLAN * $Id$ * * Authors: Samuel 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. *****************************************************************************/ #ifdef HAVE_CONFIG_H # include "config.h" #endif #include #include #include #include #include "i420_rgb.h" #include "i420_rgb_c.h" /***************************************************************************** * SetOffset: build offset array for conversion functions ***************************************************************************** * This function will build an offset array used in later conversion functions. * It will also set horizontal and vertical scaling indicators. *****************************************************************************/ static void SetOffset( int i_width, int i_height, int i_pic_width, int i_pic_height, bool *pb_hscale, unsigned int *pi_vscale, int *p_offset ) { /* * Prepare horizontal offset array */ if( i_pic_width - i_width == 0 ) { /* No horizontal scaling: YUV conversion is done directly to picture */ *pb_hscale = 0; } else if( i_pic_width - i_width > 0 ) { /* Prepare scaling array for horizontal extension */ int i_scale_count = i_pic_width; *pb_hscale = 1; for( int i_x = i_width; i_x--; ) { while( (i_scale_count -= i_width) > 0 ) { *p_offset++ = 0; } *p_offset++ = 1; i_scale_count += i_pic_width; } } else /* if( i_pic_width - i_width < 0 ) */ { /* Prepare scaling array for horizontal reduction */ int i_scale_count = i_pic_width; *pb_hscale = 1; for( int i_x = i_pic_width; i_x--; ) { *p_offset = 1; while( (i_scale_count -= i_pic_width) > 0 ) { *p_offset += 1; } p_offset++; i_scale_count += i_width; } } /* * Set vertical scaling indicator */ if( i_pic_height - i_height == 0 ) *pi_vscale = 0; else if( i_pic_height - i_height > 0 ) *pi_vscale = 1; else /* if( i_pic_height - i_height < 0 ) */ *pi_vscale = -1; } /***************************************************************************** * I420_RGB16: color YUV 4:2:0 to RGB 16 bpp ***************************************************************************** * Horizontal alignment needed: * - input: 8 pixels (8 Y bytes, 4 U/V bytes), margins not allowed * - output: 1 pixel (2 bytes), margins allowed * Vertical alignment needed: * - input: 2 lines (2 Y lines, 1 U/V line) * - output: 1 line *****************************************************************************/ void I420_RGB16( filter_t *p_filter, picture_t *p_src, picture_t *p_dest ) { /* We got this one from the old arguments */ uint16_t *p_pic = (uint16_t*)p_dest->p->p_pixels; uint8_t *p_y = p_src->Y_PIXELS; uint8_t *p_u = p_src->U_PIXELS; uint8_t *p_v = p_src->V_PIXELS; bool b_hscale; /* horizontal scaling type */ unsigned int i_vscale; /* vertical scaling type */ unsigned int i_x, i_y; /* horizontal and vertical indexes */ int i_right_margin; int i_rewind; int i_scale_count; /* scale modulo counter */ int i_chroma_width = (p_filter->fmt_in.video.i_x_offset + p_filter->fmt_in.video.i_visible_width) / 2; /* chroma width */ uint16_t * p_pic_start; /* beginning of the current line for copy */ int i_uval, i_vval; /* U and V samples */ int i_red, i_green, i_blue; /* U and V modified samples */ uint16_t * p_yuv = p_filter->p_sys->p_rgb16; uint16_t * p_ybase; /* Y dependent conversion table */ /* Conversion buffer pointer */ uint16_t * p_buffer_start = (uint16_t*)p_filter->p_sys->p_buffer; uint16_t * p_buffer; /* Offset array pointer */ int * p_offset_start = p_filter->p_sys->p_offset; int * p_offset; const int i_source_margin = p_src->p[0].i_pitch - p_src->p[0].i_visible_pitch - p_filter->fmt_in.video.i_x_offset; const int i_source_margin_c = p_src->p[1].i_pitch - p_src->p[1].i_visible_pitch - ( p_filter->fmt_in.video.i_x_offset / 2 ); i_right_margin = p_dest->p->i_pitch - p_dest->p->i_visible_pitch; i_rewind = (-(p_filter->fmt_in.video.i_x_offset + p_filter->fmt_in.video.i_visible_width)) & 7; /* Rule: when a picture of size (x1,y1) with aspect ratio r1 is rendered * on a picture of size (x2,y2) with aspect ratio r2, if x1 grows to x1' * then y1 grows to y1' = x1' * y2/x2 * r2/r1 */ SetOffset( (p_filter->fmt_in.video.i_x_offset + p_filter->fmt_in.video.i_visible_width), (p_filter->fmt_in.video.i_y_offset + p_filter->fmt_in.video.i_visible_height), (p_filter->fmt_out.video.i_x_offset + p_filter->fmt_out.video.i_visible_width), (p_filter->fmt_out.video.i_y_offset + p_filter->fmt_out.video.i_visible_height), &b_hscale, &i_vscale, p_offset_start ); /* * Perform conversion */ i_scale_count = ( i_vscale == 1 ) ? (p_filter->fmt_out.video.i_y_offset + p_filter->fmt_out.video.i_visible_height) : (p_filter->fmt_in.video.i_y_offset + p_filter->fmt_in.video.i_visible_height); for( i_y = 0; i_y < (p_filter->fmt_in.video.i_y_offset + p_filter->fmt_in.video.i_visible_height); i_y++ ) { p_pic_start = p_pic; p_buffer = b_hscale ? p_buffer_start : p_pic; for ( i_x = (p_filter->fmt_in.video.i_x_offset + p_filter->fmt_in.video.i_visible_width) / 8; i_x--; ) { CONVERT_YUV_PIXEL(2); CONVERT_Y_PIXEL(2); CONVERT_YUV_PIXEL(2); CONVERT_Y_PIXEL(2); CONVERT_YUV_PIXEL(2); CONVERT_Y_PIXEL(2); CONVERT_YUV_PIXEL(2); CONVERT_Y_PIXEL(2); } /* Here we do some unaligned reads and duplicate conversions, but * at least we have all the pixels */ if( i_rewind ) { p_y -= i_rewind; p_u -= i_rewind >> 1; p_v -= i_rewind >> 1; p_buffer -= i_rewind; CONVERT_YUV_PIXEL(2); CONVERT_Y_PIXEL(2); CONVERT_YUV_PIXEL(2); CONVERT_Y_PIXEL(2); CONVERT_YUV_PIXEL(2); CONVERT_Y_PIXEL(2); CONVERT_YUV_PIXEL(2); CONVERT_Y_PIXEL(2); } SCALE_WIDTH; SCALE_HEIGHT( 420, 2 ); p_y += i_source_margin; if( i_y % 2 ) { p_u += i_source_margin_c; p_v += i_source_margin_c; } } } /***************************************************************************** * I420_RGB32: color YUV 4:2:0 to RGB 32 bpp ***************************************************************************** * Horizontal alignment needed: * - input: 8 pixels (8 Y bytes, 4 U/V bytes), margins not allowed * - output: 1 pixel (2 bytes), margins allowed * Vertical alignment needed: * - input: 2 lines (2 Y lines, 1 U/V line) * - output: 1 line *****************************************************************************/ void I420_RGB32( filter_t *p_filter, picture_t *p_src, picture_t *p_dest ) { /* We got this one from the old arguments */ uint32_t *p_pic = (uint32_t*)p_dest->p->p_pixels; uint8_t *p_y = p_src->Y_PIXELS; uint8_t *p_u = p_src->U_PIXELS; uint8_t *p_v = p_src->V_PIXELS; bool b_hscale; /* horizontal scaling type */ unsigned int i_vscale; /* vertical scaling type */ unsigned int i_x, i_y; /* horizontal and vertical indexes */ int i_right_margin; int i_rewind; int i_scale_count; /* scale modulo counter */ int i_chroma_width = (p_filter->fmt_in.video.i_x_offset + p_filter->fmt_in.video.i_visible_width) / 2; /* chroma width */ uint32_t * p_pic_start; /* beginning of the current line for copy */ int i_uval, i_vval; /* U and V samples */ int i_red, i_green, i_blue; /* U and V modified samples */ uint32_t * p_yuv = p_filter->p_sys->p_rgb32; uint32_t * p_ybase; /* Y dependent conversion table */ /* Conversion buffer pointer */ uint32_t * p_buffer_start = (uint32_t*)p_filter->p_sys->p_buffer; uint32_t * p_buffer; /* Offset array pointer */ int * p_offset_start = p_filter->p_sys->p_offset; int * p_offset; const int i_source_margin = p_src->p[0].i_pitch - p_src->p[0].i_visible_pitch - p_filter->fmt_in.video.i_x_offset; const int i_source_margin_c = p_src->p[1].i_pitch - p_src->p[1].i_visible_pitch - ( p_filter->fmt_in.video.i_x_offset / 2 ); i_right_margin = p_dest->p->i_pitch - p_dest->p->i_visible_pitch; i_rewind = (-(p_filter->fmt_in.video.i_x_offset + p_filter->fmt_in.video.i_visible_width)) & 7; /* Rule: when a picture of size (x1,y1) with aspect ratio r1 is rendered * on a picture of size (x2,y2) with aspect ratio r2, if x1 grows to x1' * then y1 grows to y1' = x1' * y2/x2 * r2/r1 */ SetOffset( (p_filter->fmt_in.video.i_x_offset + p_filter->fmt_in.video.i_visible_width), (p_filter->fmt_in.video.i_y_offset + p_filter->fmt_in.video.i_visible_height), (p_filter->fmt_out.video.i_x_offset + p_filter->fmt_out.video.i_visible_width), (p_filter->fmt_out.video.i_y_offset + p_filter->fmt_out.video.i_visible_height), &b_hscale, &i_vscale, p_offset_start ); /* * Perform conversion */ i_scale_count = ( i_vscale == 1 ) ? (p_filter->fmt_out.video.i_y_offset + p_filter->fmt_out.video.i_visible_height) : (p_filter->fmt_in.video.i_y_offset + p_filter->fmt_in.video.i_visible_height); for( i_y = 0; i_y < (p_filter->fmt_in.video.i_y_offset + p_filter->fmt_in.video.i_visible_height); i_y++ ) { p_pic_start = p_pic; p_buffer = b_hscale ? p_buffer_start : p_pic; for ( i_x = (p_filter->fmt_in.video.i_x_offset + p_filter->fmt_in.video.i_visible_width) / 8; i_x--; ) { CONVERT_YUV_PIXEL(4); CONVERT_Y_PIXEL(4); CONVERT_YUV_PIXEL(4); CONVERT_Y_PIXEL(4); CONVERT_YUV_PIXEL(4); CONVERT_Y_PIXEL(4); CONVERT_YUV_PIXEL(4); CONVERT_Y_PIXEL(4); } /* Here we do some unaligned reads and duplicate conversions, but * at least we have all the pixels */ if( i_rewind ) { p_y -= i_rewind; p_u -= i_rewind >> 1; p_v -= i_rewind >> 1; p_buffer -= i_rewind; CONVERT_YUV_PIXEL(4); CONVERT_Y_PIXEL(4); CONVERT_YUV_PIXEL(4); CONVERT_Y_PIXEL(4); CONVERT_YUV_PIXEL(4); CONVERT_Y_PIXEL(4); CONVERT_YUV_PIXEL(4); CONVERT_Y_PIXEL(4); } SCALE_WIDTH; SCALE_HEIGHT( 420, 4 ); p_y += i_source_margin; if( i_y % 2 ) { p_u += i_source_margin_c; p_v += i_source_margin_c; } } }