netsurf/riscos/buffer.c

397 lines
10 KiB
C

/*
* Copyright 2004, 2005 Richard Wilson <info@tinct.net>
*
* This file is part of NetSurf, http://www.netsurf-browser.org/
*
* NetSurf 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; version 2 of the License.
*
* NetSurf 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, see <http://www.gnu.org/licenses/>.
*/
#include <stdbool.h>
#include <stdlib.h>
#include <string.h>
#include <swis.h>
#include <oslib/colourtrans.h>
#include <oslib/os.h>
#include <oslib/osspriteop.h>
#include <oslib/wimp.h>
#include <oslib/wimpreadsysinfo.h>
#include "utils/nsoption.h"
#include "utils/log.h"
#include "riscos/buffer.h"
#include "riscos/gui.h"
#include "riscos/tinct.h"
#include "riscos/wimp.h"
#include "riscos/wimputils.h"
#define BUFFER_EXCLUSIVE_USER_REDRAW "Only support pure user redraw (faster)"
//#define BUFFER_EMULATE_32BPP "Redirect to a 32bpp sprite and plot with Tinct"
/** Absent from OSLib
*/
#ifndef osspriteop_TYPEEXPANSION
#define osspriteop_TYPEEXPANSION ((osspriteop_mode_word) 0xFu)
#endif
#ifndef osspriteop_TYPE16BPP4K
#define osspriteop_TYPE16BPP4K ((osspriteop_mode_word) 0x10u)
#endif
static void ro_gui_buffer_free(void);
/** The buffer characteristics
*/
static osspriteop_area *buffer = NULL;
static char buffer_name[12] = "scr_buffer";
/** The current clip area
*/
static os_box clipping;
/** The current save area
*/
static osspriteop_save_area *save_area;
static int context0;
static int context1;
static int context2;
static int context3;
/** The current sprite mode
*/
static os_mode mode;
/**
* Opens a buffer for writing to.
*
* The ro_plot_origin_ variables are updated to reflect the new screen origin,
* so the variables should be set before calling this function, and not
* changed until after ro_gui_buffer_close() has been called.
*
* \param redraw the current WIMP redraw area to buffer
*/
void ro_gui_buffer_open(wimp_draw *redraw)
{
int size;
int total_size;
os_coord sprite_size;
int bpp, word_width;
bool palette;
os_error *error;
int palette_size = 0;
#ifdef BUFFER_EXCLUSIVE_USER_REDRAW
osspriteop_header *header;
#endif
/* Close any open buffer
*/
if (buffer)
ro_gui_buffer_close();
/* Store our clipping region
*/
clipping = redraw->clip;
/* Stop bad rectangles
*/
if ((clipping.x1 < clipping.x0) ||
(clipping.y1 < clipping.y0)) {
LOG("Invalid clipping rectangle (%i, %i) to (%i,%i)", clipping.x0, clipping.y0, clipping.x1, clipping.y1);
return;
}
/* Work out how much buffer we need
*/
sprite_size.x = clipping.x1 - clipping.x0 + 1;
sprite_size.y = clipping.y1 - clipping.y0 + 1;
ro_convert_os_units_to_pixels(&sprite_size, (os_mode)-1);
if (sprite_size.y == 1) /* work around SpriteExtend bug */
sprite_size.y = 2;
#ifdef BUFFER_EMULATE_32BPP
bpp = 5;
palette = false;
#else
/* Get the screen depth as we can't use palettes for >8bpp
*/
xos_read_mode_variable((os_mode)-1, os_MODEVAR_LOG2_BPP, &bpp, 0);
palette = (bpp < 4);
#endif
/* Get our required buffer size
*/
word_width = ((sprite_size.x << bpp) + 31) >> 5;
if (palette)
palette_size = ((1 << (1 << bpp)) << 3);
total_size = sizeof(osspriteop_area) + sizeof(osspriteop_header) +
(word_width * sprite_size.y * 4) + palette_size;
buffer = (osspriteop_area *)malloc(total_size);
if (!buffer) {
LOG("Failed to allocate memory");
ro_gui_buffer_free();
return;
}
buffer->size = total_size;
buffer->first = 16;
#ifdef BUFFER_EMULATE_32BPP
mode = tinct_SPRITE_MODE;
#else
if ((error = xwimpreadsysinfo_wimp_mode(&mode)) != NULL) {
LOG("Error reading mode '%s'", error->errmess);
ro_gui_buffer_free();
return;
}
/* if we're not in a numbered screen mode then we need
to build a suitable sprite mode word */
if (mode >= (os_mode)0x100) {
static const ns_os_vdu_var_list vars = {
os_MODEVAR_LOG2_BPP,
{
os_MODEVAR_MODE_FLAGS,
os_MODEVAR_NCOLOUR,
os_MODEVAR_XEIG_FACTOR,
os_MODEVAR_YEIG_FACTOR,
os_VDUVAR_END_LIST
}
};
struct {
int log2bpp;
int flags;
int ncolour;
int xeig, yeig;
} vals;
int type;
error = xos_read_vdu_variables(PTR_OS_VDU_VAR_LIST(&vars), (int *)&vals);
if (error) {
LOG("Error reading mode properties '%s'", error->errmess);
ro_gui_buffer_free();
return;
}
switch (vals.ncolour) {
case 1:
case 3:
case 15:
case 63:
case 255:
/* Paletted modes are pixel packing order agnostic */
type = 1 + vals.log2bpp;
mode = (os_mode)((type << osspriteop_TYPE_SHIFT) |
osspriteop_NEW_STYLE |
((180 >> vals.yeig) << osspriteop_YRES_SHIFT) |
((180 >> vals.xeig) << osspriteop_XRES_SHIFT));
break;
case 4095:
/* 16bpp 4k colours */
type = osspriteop_TYPE16BPP4K;
mode = (os_mode)((osspriteop_TYPEEXPANSION << osspriteop_TYPE_SHIFT) |
osspriteop_NEW_STYLE |
(vals.yeig << 6) |
(vals.xeig << 4) |
(type << 20) |
(vals.flags & 0xFF00));
break;
case 65535:
switch ((vals.flags & 0x3000) >> os_MODE_FLAG_DATA_FORMAT_SHIFT) {
case os_MODE_FLAG_DATA_FORMAT_RGB:
if (vals.flags & 0xC000) {
/* Non VIDC packing order */
if (vals.flags & os_MODE_FLAG_FULL_PALETTE)
type = osspriteop_TYPE16BPP64K;
else
type = osspriteop_TYPE16BPP;
mode = (os_mode)((osspriteop_TYPEEXPANSION << osspriteop_TYPE_SHIFT) |
osspriteop_NEW_STYLE |
(vals.yeig << 6) |
(vals.xeig << 4) |
(type << 20) |
(vals.flags & 0xFF00));
} else {
/* VIDC packing order */
if (vals.flags & os_MODE_FLAG_FULL_PALETTE)
type = osspriteop_TYPE16BPP64K;
else
type = osspriteop_TYPE16BPP;
mode = (os_mode)((type << osspriteop_TYPE_SHIFT) |
osspriteop_NEW_STYLE |
((180 >> vals.yeig) << osspriteop_YRES_SHIFT) |
((180 >> vals.xeig) << osspriteop_XRES_SHIFT));
}
break;
default:
LOG("Unhandled 16bpp format from flags %d", vals.flags);
ro_gui_buffer_free();
return;
}
break;
case -1:
/* 16M colours */
switch ((vals.flags & 0x3000) >> os_MODE_FLAG_DATA_FORMAT_SHIFT) {
case os_MODE_FLAG_DATA_FORMAT_RGB:
if (vals.flags & 0xC000) {
/* Non VIDC packing order */
type = osspriteop_TYPE32BPP;
mode = (os_mode)((osspriteop_TYPEEXPANSION << osspriteop_TYPE_SHIFT) |
osspriteop_NEW_STYLE |
(vals.yeig << 6) |
(vals.xeig << 4) |
(type << 20) |
(vals.flags & 0xFF00));
} else {
/* VIDC packing order */
type = osspriteop_TYPE32BPP;
mode = (os_mode)((type << osspriteop_TYPE_SHIFT) |
osspriteop_NEW_STYLE |
((180 >> vals.yeig) << osspriteop_YRES_SHIFT) |
((180 >> vals.xeig) << osspriteop_XRES_SHIFT));
}
break;
default:
LOG("Unhandled 32bpp data format from flags %d", vals.flags);
ro_gui_buffer_free();
return;
}
break;
default:
LOG("Unhandled NCOLOUR value %d", vals.ncolour);
ro_gui_buffer_free();
return;
}
}
#endif
#ifdef BUFFER_EXCLUSIVE_USER_REDRAW
/* Create the sprite manually so we don't waste time clearing the
background.
*/
buffer->sprite_count = 1;
buffer->used = total_size;
header = (osspriteop_header *)(buffer + 1);
header->size = total_size - sizeof(osspriteop_area);
memcpy(header->name, buffer_name, 12);
header->width = word_width - 1;
header->height = sprite_size.y - 1;
header->left_bit = 0;
header->right_bit = ((sprite_size.x << bpp) - 1) & 31;
header->image = sizeof(osspriteop_header) + palette_size;
header->mask = header->image;
header->mode = mode;
if (palette)
xcolourtrans_read_palette((osspriteop_area *)mode,
(osspriteop_id)os_CURRENT_MODE,
(os_palette *)(header + 1), palette_size,
(colourtrans_palette_flags)
colourtrans_FLASHING_PALETTE, 0);
#else
/* Read the current contents of the screen
*/
buffer->sprite_count = 0;
buffer->used = 16;
if ((error = xosspriteop_get_sprite_user_coords(osspriteop_NAME,
buffer, buffer_name, palette,
clipping.x0, clipping.y0,
clipping.x1, clipping.y1)) != NULL) {
LOG("Grab error '%s'", error->errmess);
ro_gui_buffer_free();
return;
}
#endif
/* Allocate OS_SpriteOp save area
*/
if ((error = xosspriteop_read_save_area_size(osspriteop_PTR,
buffer, (osspriteop_id)(buffer + 1), &size)) != NULL) {
LOG("Save area error '%s'", error->errmess);
ro_gui_buffer_free();
return;
}
if ((save_area = malloc((size_t)size)) == NULL) {
ro_gui_buffer_free();
return;
}
save_area->a[0] = 0;
/* Switch output to sprite
*/
if ((error = xosspriteop_switch_output_to_sprite(osspriteop_PTR,
buffer, (osspriteop_id)(buffer + 1), save_area,
&context0, &context1, &context2, &context3)) != NULL) {
LOG("Switching error '%s'", error->errmess);
free(save_area);
ro_gui_buffer_free();
return;
}
/* Emulate an origin as the FontManager doesn't respect it in
most cases.
*/
ro_plot_origin_x -= clipping.x0;
ro_plot_origin_y -= clipping.y0;
/* Update the ECF origin
*/
if ((error = xos_set_ecf_origin(-ro_plot_origin_x,
-ro_plot_origin_y)) != NULL) {
LOG("Invalid ECF origin: '%s'", error->errmess);
}
}
/**
* Closes any open buffer and flushes the contents to screen
*/
void ro_gui_buffer_close(void)
{
/* Check we have an open buffer
*/
if (!buffer)
return;
/* Remove any previous redirection
*/
ro_plot_origin_x += clipping.x0;
ro_plot_origin_y += clipping.y0;
xosspriteop_unswitch_output(context0, context1, context2, context3);
free(save_area);
/* Plot the contents to screen
*/
if (mode == tinct_SPRITE_MODE)
_swix(Tinct_Plot, _IN(2) | _IN(3) | _IN(4) | _IN(7),
(char *)(buffer + 1),
clipping.x0, clipping.y0,
nsoption_int(plot_fg_quality));
else
xosspriteop_put_sprite_user_coords(osspriteop_PTR,
buffer, (osspriteop_id)(buffer + 1),
clipping.x0, clipping.y0, (os_action)0);
ro_gui_buffer_free();
/* Update the ECF origin
*/
os_set_ecf_origin(0, 0);
}
/**
* Releases any buffer memory depending on cache constraints.
*/
static void ro_gui_buffer_free(void)
{
free(buffer);
buffer = NULL;
}