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screenshot.c
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screenshot.c
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/* screenshot.c: Routines for handling .png and .scr screenshots
Copyright (c) 2002-2003 Philip Kendall, Fredrick Meunier
$Id: screenshot.c 3621 2008-05-17 14:33:46Z fredm $
This program is free software; you can redistribute it and/or modify
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
GNU General Public License for more details.
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.,
51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
Author contact information:
E-mail: philip-fuse@shadowmagic.org.uk
*/
#include <config.h>
#include <errno.h>
#include <limits.h>
#include <string.h>
#include <libspectrum.h>
#include "display.h"
#include "machine.h"
#include "screenshot.h"
#include "scld.h"
#include "settings.h"
#include "ui/scaler/scaler.h"
#include "ui/ui.h"
#include "utils.h"
#define STANDARD_SCR_SIZE 6912
#define MONO_BITMAP_SIZE 6144
#define HICOLOUR_SCR_SIZE (2 * MONO_BITMAP_SIZE)
#define HIRES_ATTR HICOLOUR_SCR_SIZE
#define HIRES_SCR_SIZE (HICOLOUR_SCR_SIZE + 1)
#ifdef USE_LIBPNG
#include <png.h>
static int get_rgb32_data( libspectrum_byte *rgb32_data, size_t stride,
size_t height, size_t width );
static int rgb32_to_rgb24( libspectrum_byte *rgb24_data, size_t rgb24_stride,
libspectrum_byte *rgb32_data, size_t rgb32_stride,
size_t height, size_t width );
/* The biggest size screen (in units of DISPLAY_ASPECT_WIDTH x
DISPLAY_SCREEN_HEIGHT ie a Timex screen is size 2) we will be
creating via the scalers */
#define MAX_SIZE 3
/* The space used for drawing the screen image on. Out here to avoid placing
these large objects on the stack */
static libspectrum_byte
rgb_data1[ MAX_SIZE * DISPLAY_SCREEN_HEIGHT * 3 * DISPLAY_ASPECT_WIDTH * 4 ],
rgb_data2[ MAX_SIZE * DISPLAY_SCREEN_HEIGHT * 3 * DISPLAY_ASPECT_WIDTH * 4 ],
png_data[ MAX_SIZE * DISPLAY_SCREEN_HEIGHT * 3 * DISPLAY_ASPECT_WIDTH * 3 ];
scaler_type screenshot_movie_scaler = SCALER_NUM;
static int
screenshot_write2( const char *filename, scaler_type scaler, int compression )
{
FILE *f;
png_structp png_ptr;
png_infop info_ptr;
libspectrum_byte *row_pointers[ MAX_SIZE * DISPLAY_SCREEN_HEIGHT ];
size_t rgb_stride = MAX_SIZE * DISPLAY_ASPECT_WIDTH * 4,
png_stride = MAX_SIZE * DISPLAY_ASPECT_WIDTH * 3;
size_t y, base_height, base_width, height, width;
int error;
if( machine_current->timex ) {
base_height = 2 * DISPLAY_SCREEN_HEIGHT;
base_width = DISPLAY_SCREEN_WIDTH;
} else {
base_height = DISPLAY_SCREEN_HEIGHT;
base_width = DISPLAY_ASPECT_WIDTH;
}
/* Change from paletted data to RGB data */
error = get_rgb32_data( rgb_data1, rgb_stride, base_height, base_width );
if( error ) return error;
/* Actually scale the data here */
scaler_get_proc32( scaler )( rgb_data1, rgb_stride, rgb_data2, rgb_stride,
base_width, base_height );
height = base_height * scaler_get_scaling_factor( scaler );
width = base_width * scaler_get_scaling_factor( scaler );
/* Reduce from RGB(padding byte) to just RGB */
error = rgb32_to_rgb24( png_data, png_stride, rgb_data2, rgb_stride,
height, width );
if( error ) return error;
for( y = 0; y < height; y++ )
row_pointers[y] = &png_data[ y * png_stride ];
f = fopen( filename, "wb" );
if( !f ) {
ui_error( UI_ERROR_ERROR, "Couldn't open `%s': %s", filename,
strerror( errno ) );
return 1;
}
png_ptr = png_create_write_struct( PNG_LIBPNG_VER_STRING,
NULL, NULL, NULL );
if( !png_ptr ) {
ui_error( UI_ERROR_ERROR, "Couldn't allocate png_ptr" );
fclose( f );
return 1;
}
info_ptr = png_create_info_struct( png_ptr );
if( !info_ptr ) {
ui_error( UI_ERROR_ERROR, "Couldn't allocate info_ptr" );
png_destroy_write_struct( &png_ptr, NULL );
fclose( f );
return 1;
}
/* Set up the error handling; libpng will return to here if it
encounters an error */
if( setjmp( png_jmpbuf( png_ptr ) ) ) {
ui_error( UI_ERROR_ERROR, "Error from libpng" );
png_destroy_write_struct( &png_ptr, &info_ptr );
fclose( f );
return 1;
}
png_init_io( png_ptr, f );
/* Make files as small as possible */
png_set_compression_level( png_ptr, compression );
png_set_IHDR( png_ptr, info_ptr,
width, height, 8,
PNG_COLOR_TYPE_RGB,
PNG_INTERLACE_NONE,
PNG_COMPRESSION_TYPE_DEFAULT,
PNG_FILTER_TYPE_DEFAULT );
png_set_rows( png_ptr, info_ptr, row_pointers );
png_write_png( png_ptr, info_ptr, PNG_TRANSFORM_IDENTITY, NULL );
png_destroy_write_struct( &png_ptr, &info_ptr );
if( fclose( f ) ) {
ui_error( UI_ERROR_ERROR, "Couldn't close `%s': %s", filename,
strerror( errno ) );
return 1;
}
return 0;
}
int
screenshot_write( const char *filename, scaler_type scaler )
{
return screenshot_write2( filename, scaler, Z_BEST_COMPRESSION );
}
int
screenshot_write_fast( const char *filename, scaler_type scaler )
{
return screenshot_write2( filename, scaler, Z_BEST_SPEED );
}
static int
get_rgb32_data( libspectrum_byte *rgb32_data, size_t stride,
size_t height, size_t width )
{
size_t i, x, y;
static const /* R G B */
libspectrum_byte palette[16][3] = { { 0, 0, 0 },
{ 0, 0, 192 },
{ 192, 0, 0 },
{ 192, 0, 192 },
{ 0, 192, 0 },
{ 0, 192, 192 },
{ 192, 192, 0 },
{ 192, 192, 192 },
{ 0, 0, 0 },
{ 0, 0, 255 },
{ 255, 0, 0 },
{ 255, 0, 255 },
{ 0, 255, 0 },
{ 0, 255, 255 },
{ 255, 255, 0 },
{ 255, 255, 255 } };
libspectrum_byte grey_palette[16];
/* Addition of 0.5 is to avoid rounding errors */
for( i = 0; i < 16; i++ )
grey_palette[i] = ( 0.299 * palette[i][0] +
0.587 * palette[i][1] +
0.114 * palette[i][2] ) + 0.5;
for( y = 0; y < height; y++ ) {
for( x = 0; x < width; x++ ) {
size_t colour;
libspectrum_byte red, green, blue;
colour = display_getpixel( x, y );
if( settings_current.bw_tv ) {
red = green = blue = grey_palette[colour];
} else {
red = palette[colour][0];
green = palette[colour][1];
blue = palette[colour][2];
}
rgb32_data[ y * stride + 4 * x ] = red;
rgb32_data[ y * stride + 4 * x + 1 ] = green;
rgb32_data[ y * stride + 4 * x + 2 ] = blue;
rgb32_data[ y * stride + 4 * x + 3 ] = 0; /* padding */
}
}
return 0;
}
static int
rgb32_to_rgb24( libspectrum_byte *rgb24_data, size_t rgb24_stride,
libspectrum_byte *rgb32_data, size_t rgb32_stride,
size_t height, size_t width )
{
size_t x, y;
for( y = 0; y < height; y++ ) {
for( x = 0; x < width; x++ ) {
rgb24_data[y*rgb24_stride +3*x ] = rgb32_data[y*rgb32_stride +4*x ];
rgb24_data[y*rgb24_stride +3*x +1] = rgb32_data[y*rgb32_stride +4*x +1];
rgb24_data[y*rgb24_stride +3*x +2] = rgb32_data[y*rgb32_stride +4*x +2];
}
}
return 0;
}
int
screenshot_available_scalers( scaler_type scaler )
{
if( machine_current->timex ) {
switch( scaler ) {
case SCALER_HALF: case SCALER_HALFSKIP: case SCALER_NORMAL:
case SCALER_TIMEXTV: case SCALER_PALTV:
return 1;
default:
return 0;
}
} else {
switch( scaler ) {
case SCALER_NORMAL: case SCALER_DOUBLESIZE: case SCALER_TRIPLESIZE:
case SCALER_2XSAI: case SCALER_SUPER2XSAI: case SCALER_SUPEREAGLE:
case SCALER_ADVMAME2X: case SCALER_ADVMAME3X: case SCALER_TV2X:
case SCALER_DOTMATRIX: case SCALER_PALTV2X: case SCALER_PALTV3X:
case SCALER_HQ2X: case SCALER_HQ3X:
return 1;
default:
return 0;
}
}
}
#endif /* #ifdef USE_LIBPNG */
char screenshot_movie_name[PATH_MAX+1];
char screenshot_movie_file[SCREENSHOT_MOVIE_FILE_MAX+1];
long int screenshot_movie_frame = 0;
int screenshot_movie_record = 0;
int
screenshot_scr_write( const char *filename )
{
libspectrum_byte scr_data[HIRES_SCR_SIZE];
int scr_length;
memset( scr_data, 0, HIRES_SCR_SIZE );
if( scld_last_dec.name.hires ) {
memcpy( scr_data,
&RAM[ memory_current_screen ][display_get_addr(0,0)],
MONO_BITMAP_SIZE );
memcpy( scr_data + MONO_BITMAP_SIZE,
&RAM[ memory_current_screen ][display_get_addr(0,0) +
ALTDFILE_OFFSET], MONO_BITMAP_SIZE );
scr_data[HIRES_ATTR] = ( scld_last_dec.byte & HIRESCOLMASK ) |
scld_last_dec.mask.scrnmode;
scr_length = HIRES_SCR_SIZE;
}
else if( scld_last_dec.name.b1 ) {
memcpy( scr_data,
&RAM[ memory_current_screen ][display_get_addr(0,0)],
MONO_BITMAP_SIZE );
memcpy( scr_data + MONO_BITMAP_SIZE,
&RAM[ memory_current_screen ][display_get_addr(0,0) +
ALTDFILE_OFFSET], MONO_BITMAP_SIZE );
scr_length = HICOLOUR_SCR_SIZE;
}
else { /* ALTDFILE and default */
memcpy( scr_data,
&RAM[ memory_current_screen ][display_get_addr(0,0)],
STANDARD_SCR_SIZE );
scr_length = STANDARD_SCR_SIZE;
}
return utils_write_file( filename, scr_data, scr_length );
}
#ifdef WORDS_BIGENDIAN
typedef struct {
unsigned b0 : 1;
unsigned b1 : 1;
unsigned b2 : 1;
unsigned b3 : 1;
unsigned b4 : 1;
unsigned b5 : 1;
unsigned b6 : 1;
unsigned b7 : 1;
} byte_field_type;
#else /* #ifdef WORDS_BIGENDIAN */
typedef struct {
unsigned b7 : 1;
unsigned b6 : 1;
unsigned b5 : 1;
unsigned b4 : 1;
unsigned b3 : 1;
unsigned b2 : 1;
unsigned b1 : 1;
unsigned b0 : 1;
} byte_field_type;
#endif /* #ifdef WORDS_BIGENDIAN */
typedef union {
libspectrum_byte byte;
byte_field_type bit;
} bft_union;
static libspectrum_byte
convert_hires_to_lores( libspectrum_byte high, libspectrum_byte low )
{
bft_union ret, h, l;
h.byte = high;
l.byte = low;
ret.bit.b0 = l.bit.b0;
ret.bit.b1 = l.bit.b2;
ret.bit.b2 = l.bit.b4;
ret.bit.b3 = l.bit.b6;
ret.bit.b4 = h.bit.b0;
ret.bit.b5 = h.bit.b2;
ret.bit.b6 = h.bit.b4;
ret.bit.b7 = h.bit.b6;
return ret.byte;
}
int
screenshot_scr_read( const char *filename )
{
int error = 0;
int i;
utils_file screen;
error = utils_read_file( filename, &screen );
if( error ) return error;
switch( screen.length ) {
case STANDARD_SCR_SIZE:
memcpy( &RAM[ memory_current_screen ][display_get_addr(0,0)],
screen.buffer, screen.length );
/* If it is a Timex and it is in hi colour or hires mode, switch out of
hires or hicolour mode */
if( scld_last_dec.name.b1 || scld_last_dec.name.hires )
scld_dec_write( 0xff, scld_last_dec.byte & ~HIRES );
break;
case HICOLOUR_SCR_SIZE:
/* If it is a Timex and it is not in hi colour mode, copy screen and switch
mode if neccesary */
/* If it is not a Timex copy the mono bitmap and raise an error */
if( machine_current->timex ) {
if( !scld_last_dec.name.b1 )
scld_dec_write( 0xff, ( scld_last_dec.byte & ~HIRESATTR ) | EXTCOLOUR );
memcpy( &RAM[ memory_current_screen ][display_get_addr(0,0) +
ALTDFILE_OFFSET], screen.buffer + MONO_BITMAP_SIZE,
MONO_BITMAP_SIZE );
} else
ui_error( UI_ERROR_INFO,
"The file contained a TC2048 high-colour screen, loaded as mono");
memcpy( &RAM[ memory_current_screen ][display_get_addr(0,0)],
screen.buffer, MONO_BITMAP_SIZE );
break;
case HIRES_SCR_SIZE:
/* If it is a Timex and it is not in hi res mode, copy screen and switch
mode if neccesary */
/* If it is not a Timex scale the bitmap and raise an error */
if( machine_current->timex ) {
memcpy( &RAM[ memory_current_screen ][display_get_addr(0,0)],
screen.buffer, MONO_BITMAP_SIZE );
memcpy( &RAM[ memory_current_screen ][display_get_addr(0,0)] +
ALTDFILE_OFFSET, screen.buffer + MONO_BITMAP_SIZE,
MONO_BITMAP_SIZE );
if( !scld_last_dec.name.hires )
scld_dec_write( 0xff,
( scld_last_dec.byte & ~( HIRESCOLMASK | HIRES ) ) |
( *(screen.buffer + HIRES_ATTR) & ( HIRESCOLMASK | HIRES ) ) );
} else {
libspectrum_byte attr = hires_convert_dec( *(screen.buffer + HIRES_ATTR) );
for( i = 0; i < MONO_BITMAP_SIZE; i++ )
RAM[ memory_current_screen ][display_get_addr(0,0) + i] =
convert_hires_to_lores( *(screen.buffer + MONO_BITMAP_SIZE + i),
*(screen.buffer + i) );
/* set attributes based on hires attribute byte */
for( i = 0; i < 768; i++ )
RAM[ memory_current_screen ][display_get_addr(0,0) +
MONO_BITMAP_SIZE + i] = attr;
ui_error( UI_ERROR_INFO,
"The file contained a TC2048 high-res screen, converted to lores");
}
break;
default:
ui_error( UI_ERROR_ERROR, "'%s' is not a valid scr file", filename );
error = 1;
}
utils_close_file( &screen );
display_refresh_all();
return error;
}