snes9x/gtk/src/snes_ntsc.c

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2010-09-25 17:46:12 +02:00
/* snes_ntsc 0.2.2. http://www.slack.net/~ant/ */
#include "snes_ntsc.h"
/* Copyright (C) 2006-2007 Shay Green. This module 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
module 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 module; if not, write to the Free Software Foundation,
Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */
snes_ntsc_setup_t const snes_ntsc_monochrome = { 0,-1, 0, 0,.2, 0,.2,-.2,-.2,-1, 1, 0, 0 };
snes_ntsc_setup_t const snes_ntsc_composite = { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 0, 0 };
snes_ntsc_setup_t const snes_ntsc_svideo = { 0, 0, 0, 0,.2, 0,.2, -1, -1, 0, 1, 0, 0 };
snes_ntsc_setup_t const snes_ntsc_rgb = { 0, 0, 0, 0,.2, 0,.7, -1, -1,-1, 1, 0, 0 };
#define alignment_count 3
#define burst_count 3
#define rescale_in 8
#define rescale_out 7
#define artifacts_mid 1.0f
#define fringing_mid 1.0f
#define std_decoder_hue 0
#define rgb_bits 7 /* half normal range to allow for doubled hires pixels */
#define gamma_size 32
#include "snes_ntsc_impl.h"
unsigned int scanline_offset = 0;
unsigned short scanline_mask = 0xffff;
/* 3 input pixels -> 8 composite samples */
pixel_info_t const snes_ntsc_pixels [alignment_count] = {
{ PIXEL_OFFSET( -4, -9 ), { 1, 1, .6667f, 0 } },
{ PIXEL_OFFSET( -2, -7 ), { .3333f, 1, 1, .3333f } },
{ PIXEL_OFFSET( 0, -5 ), { 0, .6667f, 1, 1 } },
};
static void merge_kernel_fields( snes_ntsc_rgb_t* io )
{
int n;
for ( n = burst_size; n; --n )
{
snes_ntsc_rgb_t p0 = io [burst_size * 0] + rgb_bias;
snes_ntsc_rgb_t p1 = io [burst_size * 1] + rgb_bias;
snes_ntsc_rgb_t p2 = io [burst_size * 2] + rgb_bias;
/* merge colors without losing precision */
io [burst_size * 0] =
((p0 + p1 - ((p0 ^ p1) & snes_ntsc_rgb_builder)) >> 1) - rgb_bias;
io [burst_size * 1] =
((p1 + p2 - ((p1 ^ p2) & snes_ntsc_rgb_builder)) >> 1) - rgb_bias;
io [burst_size * 2] =
((p2 + p0 - ((p2 ^ p0) & snes_ntsc_rgb_builder)) >> 1) - rgb_bias;
++io;
}
}
static void correct_errors( snes_ntsc_rgb_t color, snes_ntsc_rgb_t* out )
{
int n;
for ( n = burst_count; n; --n )
{
unsigned i;
for ( i = 0; i < rgb_kernel_size / 2; i++ )
{
snes_ntsc_rgb_t error = color -
out [i ] - out [(i+12)%14+14] - out [(i+10)%14+28] -
out [i + 7] - out [i + 5 +14] - out [i + 3 +28];
DISTRIBUTE_ERROR( i+3+28, i+5+14, i+7 );
}
out += alignment_count * rgb_kernel_size;
}
}
void snes_ntsc_init( snes_ntsc_t* ntsc, snes_ntsc_setup_t const* setup )
{
int merge_fields;
int entry;
init_t impl;
if ( !setup )
setup = &snes_ntsc_composite;
init( &impl, setup );
merge_fields = setup->merge_fields;
if ( setup->artifacts <= -1 && setup->fringing <= -1 )
merge_fields = 1;
for ( entry = 0; entry < snes_ntsc_palette_size; entry++ )
{
/* Reduce number of significant bits of source color. Clearing the
low bits of R and B were least notictable. Modifying green was too
noticeable. */
int ir = entry >> 8 & 0x1E;
int ig = entry >> 4 & 0x1F;
int ib = entry << 1 & 0x1E;
#if SNES_NTSC_BSNES_COLORTBL
if ( setup->bsnes_colortbl )
{
int bgr15 = (ib << 10) | (ig << 5) | ir;
unsigned long rgb16 = setup->bsnes_colortbl [bgr15];
ir = rgb16 >> 11 & 0x1E;
ig = rgb16 >> 6 & 0x1F;
ib = rgb16 & 0x1E;
}
#endif
{
float rr = impl.to_float [ir];
float gg = impl.to_float [ig];
float bb = impl.to_float [ib];
float y, i, q = RGB_TO_YIQ( rr, gg, bb, y, i );
int r, g, b = YIQ_TO_RGB( y, i, q, impl.to_rgb, int, r, g );
snes_ntsc_rgb_t rgb = PACK_RGB( r, g, b );
snes_ntsc_rgb_t* out = ntsc->table [entry];
gen_kernel( &impl, y, i, q, out );
if ( merge_fields )
merge_kernel_fields( out );
correct_errors( rgb, out );
}
}
}
#ifndef SNES_NTSC_NO_BLITTERS
/* 12.5% scanlines like in snes_ntsc example instead of zsnes's 25% */
#define PIXEL_OUT( x ) \
SNES_NTSC_RGB_OUT( x, value, 16 ); \
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line_outa[x] = value; \
line_outb[x] = value - (value >> scanline_offset & scanline_mask);
void snes_ntsc_blit( snes_ntsc_t const* ntsc, SNES_NTSC_IN_T const* input, long in_row_width,
int burst_phase, int in_width, int in_height, void* rgb_out, long out_pitch )
{
unsigned value;
int chunk_count = (in_width - 1) / snes_ntsc_in_chunk;
for ( ; in_height; --in_height )
{
SNES_NTSC_IN_T const* line_in = input;
SNES_NTSC_BEGIN_ROW( ntsc, burst_phase,
snes_ntsc_black, snes_ntsc_black, SNES_NTSC_ADJ_IN( *line_in ) );
snes_ntsc_out_t * restrict line_outa = (snes_ntsc_out_t *) rgb_out;
snes_ntsc_out_t * restrict line_outb = (snes_ntsc_out_t *) ((char *) line_outa + out_pitch);
int n;
++line_in;
for ( n = chunk_count; n; --n )
{
/* order of input and output pixels must not be altered */
SNES_NTSC_COLOR_IN( 0, SNES_NTSC_ADJ_IN( line_in [0] ) );
PIXEL_OUT (0);
PIXEL_OUT (1);
SNES_NTSC_COLOR_IN( 1, SNES_NTSC_ADJ_IN( line_in [1] ) );
PIXEL_OUT (2);
PIXEL_OUT (3);
SNES_NTSC_COLOR_IN( 2, SNES_NTSC_ADJ_IN( line_in [2] ) );
PIXEL_OUT (4);
PIXEL_OUT (5);
PIXEL_OUT (6);
line_in += 3;
line_outa += 7;
line_outb += 7;
}
/* finish final pixels */
SNES_NTSC_COLOR_IN( 0, snes_ntsc_black );
PIXEL_OUT (0);
PIXEL_OUT (1);
SNES_NTSC_COLOR_IN( 1, snes_ntsc_black );
PIXEL_OUT (2);
PIXEL_OUT (3);
SNES_NTSC_COLOR_IN( 2, snes_ntsc_black );
PIXEL_OUT (4);
PIXEL_OUT (5);
PIXEL_OUT (6);
burst_phase = (burst_phase + 1) % snes_ntsc_burst_count;
input += in_row_width;
rgb_out = (char*) rgb_out + 2 * out_pitch;
}
}
#define PIXEL_OUT_HIRES( x ) \
SNES_NTSC_HIRES_OUT( x, value, 15 ); \
line_outa[x] = value; \
line_outb[x] = value - (value >> scanline_offset & scanline_mask);
void snes_ntsc_blit_hires( snes_ntsc_t const* ntsc, SNES_NTSC_IN_T const* input, long in_row_width,
int burst_phase, int in_width, int in_height, void* rgb_out, long out_pitch )
{
int chunk_count = (in_width - 2) / (snes_ntsc_in_chunk * 2);
unsigned value;
for ( ; in_height; --in_height )
{
SNES_NTSC_IN_T const* line_in = input;
SNES_NTSC_HIRES_ROW( ntsc, burst_phase,
snes_ntsc_black, snes_ntsc_black, snes_ntsc_black,
SNES_NTSC_ADJ_IN( line_in [0] ),
SNES_NTSC_ADJ_IN( line_in [1] ) );
snes_ntsc_out_t* restrict line_outa = (snes_ntsc_out_t*) rgb_out;
snes_ntsc_out_t* restrict line_outb = (snes_ntsc_out_t*) ((char *) line_outa + out_pitch);
int n;
line_in += 2;
for ( n = chunk_count; n; --n )
{
/* twice as many input pixels per chunk */
SNES_NTSC_COLOR_IN( 0, SNES_NTSC_ADJ_IN( line_in [0] ) );
PIXEL_OUT_HIRES (0);
SNES_NTSC_COLOR_IN( 1, SNES_NTSC_ADJ_IN( line_in [1] ) );
PIXEL_OUT_HIRES (1);
SNES_NTSC_COLOR_IN( 2, SNES_NTSC_ADJ_IN( line_in [2] ) );
PIXEL_OUT_HIRES (2);
SNES_NTSC_COLOR_IN( 3, SNES_NTSC_ADJ_IN( line_in [3] ) );
PIXEL_OUT_HIRES (3);
SNES_NTSC_COLOR_IN( 4, SNES_NTSC_ADJ_IN( line_in [4] ) );
PIXEL_OUT_HIRES (4);
SNES_NTSC_COLOR_IN( 5, SNES_NTSC_ADJ_IN( line_in [5] ) );
PIXEL_OUT_HIRES (5);
PIXEL_OUT_HIRES (6);
line_in += 6;
line_outa += 7;
line_outb += 7;
}
SNES_NTSC_COLOR_IN( 0, snes_ntsc_black );
PIXEL_OUT_HIRES (0);
SNES_NTSC_COLOR_IN( 1, snes_ntsc_black );
PIXEL_OUT_HIRES (1);
SNES_NTSC_COLOR_IN( 2, snes_ntsc_black );
PIXEL_OUT_HIRES (2);
SNES_NTSC_COLOR_IN( 3, snes_ntsc_black );
PIXEL_OUT_HIRES (3);
SNES_NTSC_COLOR_IN( 4, snes_ntsc_black );
PIXEL_OUT_HIRES (4);
SNES_NTSC_COLOR_IN( 5, snes_ntsc_black );
PIXEL_OUT_HIRES (5);
PIXEL_OUT_HIRES (6);
burst_phase = (burst_phase + 1) % snes_ntsc_burst_count;
input += in_row_width;
rgb_out = (char*) rgb_out + out_pitch * 2;
}
}
#endif