scummvm/engines/sci/gfx/widgets.cpp
Filippos Karapetis e28439bebc point_t -> Common::Point
svn-id: r38437
2009-02-17 19:15:37 +00:00

2461 lines
64 KiB
C++

/* ScummVM - Graphic Adventure Engine
*
* ScummVM is the legal property of its developers, whose names
* are too numerous to list here. Please refer to the COPYRIGHT
* file distributed with this source distribution.
*
* 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.
*
* $URL$
* $Id$
*
*/
#include "sci/include/sci_memory.h"
#include "sci/include/gfx_widgets.h"
#undef GFXW_DEBUG_DIRTY /* Enable to debug dirty rectangle propagation (writes to stderr) */
#ifdef GFXW_DEBUG_DIRTY
# define DDIRTY fprintf(stderr, "%s:%5d| ", __FILE__, __LINE__); fprintf
#else
# define DDIRTY if (0) fprintf
#endif
Common::Point gfxw_point_zero(0, 0);
#define MAX_SERIAL_NUMBER 0x7fffffff
static int widget_serial_number_counter = 0x10000; /* Avoid confusion with IDs */
#ifdef GFXW_DEBUG_WIDGETS
gfxw_widget_t *debug_widgets[GFXW_DEBUG_WIDGETS];
int debug_widget_pos = 0;
static void
_gfxw_debug_add_widget(gfxw_widget_t *widget) {
if (debug_widget_pos == GFXW_DEBUG_WIDGETS) {
GFXERROR("WIDGET DEBUG: Allocated the maximum number of %d widgets- Aborting!\n", GFXW_DEBUG_WIDGETS);
BREAKPOINT();
}
debug_widgets[debug_widget_pos++] = widget;
}
static void
_gfxw_debug_remove_widget(gfxw_widget_t *widget) {
int i;
int found = 0;
for (i = 0; i < debug_widget_pos; i++) {
if (debug_widgets[i] == widget) {
memmove(debug_widgets + i, debug_widgets + i + 1,
(sizeof(gfxw_widget_t *)) * (debug_widget_pos - i - 1));
debug_widgets[debug_widget_pos--] = NULL;
found++;
}
}
if (found > 1) {
GFXERROR("While removing widget: Found it %d times!\n", found);
BREAKPOINT();
}
if (found == 0) {
GFXERROR("Attempted removal of unregistered widget!\n");
BREAKPOINT();
}
}
#else /* !GFXW_DEBUG_WIDGETS */
#define _gfxw_debug_add_widget(a)
#define _gfxw_debug_remove_widget(a)
#endif
static inline void
indent(int indentation) {
int i;
for (i = 0; i < indentation; i++)
sciprintf(" ");
}
static void
_gfxw_print_widget(gfxw_widget_t *widget, int indentation) {
unsigned int i;
char flags_list[] = "VOCDTMI";
indent(indentation);
if (widget->magic == GFXW_MAGIC_VALID) {
if (widget->visual)
sciprintf("v ");
else
sciprintf("NoVis ");
} else if (widget->magic == GFXW_MAGIC_INVALID)
sciprintf("INVALID ");
sciprintf("S%08x", widget->serial);
if (widget->ID != GFXW_NO_ID) {
sciprintf("#%x", widget->ID);
if (widget->subID != GFXW_NO_ID)
sciprintf(":%x ", widget->subID);
else
sciprintf(" ");
}
sciprintf("[(%d,%d)(%dx%d)]", widget->bounds.x, widget->bounds.y, widget->bounds.xl, widget->bounds.yl);
for (i = 0; i < strlen(flags_list); i++)
if (widget->flags & (1 << i))
sciprintf("%c", flags_list[i]);
sciprintf(" ");
}
static int
_gfxwop_print_empty(gfxw_widget_t *widget, int indentation) {
_gfxw_print_widget(widget, indentation);
sciprintf("<untyped #%d>", widget->type);
return 0;
}
gfxw_widget_t *
_gfxw_new_widget(int size, gfxw_widget_type_t type) {
gfxw_widget_t *widget = (gfxw_widget_t*)sci_malloc(size);
#ifdef SATISFY_PURIFY
memset(widget, 0, size);
#endif
widget->magic = GFXW_MAGIC_VALID;
widget->parent = NULL;
widget->visual = NULL;
widget->next = NULL;
widget->type = type;
widget->bounds = gfx_rect(0, 0, 0, 0);
widget->flags = GFXW_FLAG_DIRTY;
widget->ID = GFXW_NO_ID;
widget->subID = GFXW_NO_ID;
widget->serial = widget_serial_number_counter++;
widget->widget_priority = -1;
widget_serial_number_counter &= MAX_SERIAL_NUMBER;
widget->draw = NULL;
widget->widfree = NULL;
widget->tag = NULL;
widget->print = _gfxwop_print_empty;
widget->should_replace = NULL;
widget->compare_to = widget->equals = widget->superarea_of = NULL;
_gfxw_debug_add_widget(widget);
return widget;
}
static inline int
verify_widget(gfxw_widget_t *widget) {
if (!widget) {
GFXERROR("Attempt to use NULL widget\n");
#ifdef GFXW_DEBUG_WIDGETS
BREAKPOINT();
#endif /* GFXW_DEBUG_WIDGETS */
return 1;
} else if (widget->magic != GFXW_MAGIC_VALID) {
if (widget->magic == GFXW_MAGIC_INVALID) {
GFXERROR("Attempt to use invalidated widget\n");
} else {
GFXERROR("Attempt to use non-widget\n");
}
#ifdef GFXW_DEBUG_WIDGETS
BREAKPOINT();
#endif /* GFXW_DEBUG_WIDGETS */
return 1;
}
return 0;
}
#define VERIFY_WIDGET(w) \
if (verify_widget((gfxw_widget_t *)(w))) { GFXERROR("Error occured while validating widget\n"); }
static void
_gfxw_unallocate_widget(gfx_state_t *state, gfxw_widget_t *widget) {
if (GFXW_IS_TEXT(widget)) {
gfxw_text_t *text = (gfxw_text_t *) widget;
if (text->text_handle) {
if (!state) {
GFXERROR("Attempt to free text without supplying mode to free it from!\n");
BREAKPOINT();
} else {
gfxop_free_text(state, text->text_handle);
text->text_handle = NULL;
}
}
}
widget->magic = GFXW_MAGIC_INVALID;
free(widget);
_gfxw_debug_remove_widget(widget);
}
#define GFX_ASSERT(_x) \
{ \
int retval = (_x); \
if (retval == GFX_ERROR) { \
GFXERROR("Error occured while drawing widget!\n"); \
return 1; \
} else if (retval == GFX_FATAL) { \
GFXERROR("Fatal error occured while drawing widget!\nGraphics state invalid; aborting program..."); \
exit(1); \
} \
}
/**********************************/
/*********** Widgets **************/
/**********************************/
/* Base class operations and common stuff */
/* Assertion for drawing */
#define DRAW_ASSERT(widget, exp_type) \
if (!(widget)) { \
sciprintf("L%d: NULL widget!\n", __LINE__); \
return 1; \
} \
if (!(widget)->print) { \
sciprintf("L%d: Widget of type %d does not have print function!\n", __LINE__, \
(widget)->type); \
} \
if ((widget)->type != (exp_type)) { \
sciprintf("L%d: Error in widget: Expected type " # exp_type "(%d) but got %d\n", \
__LINE__, exp_type, (widget)->type); \
sciprintf("Erroneous widget: "); \
widget->print(widget, 4); \
sciprintf("\n"); \
return 1; \
} \
if (!(widget->flags & GFXW_FLAG_VISIBLE)) \
return 0; \
if (!(widget->type == GFXW_VISUAL || widget->visual)) { \
sciprintf("L%d: Error while drawing widget: Widget has no visual\n", __LINE__); \
sciprintf("Erroneous widget: "); \
widget->print(widget, 1); \
sciprintf("\n"); \
return 1; \
}
static inline int
_color_equals(gfx_color_t a, gfx_color_t b) {
if (a.mask != b.mask)
return 0;
if (a.mask & GFX_MASK_VISUAL) {
if (a.visual.r != b.visual.r
|| a.visual.g != b.visual.g
|| a.visual.b != b.visual.b
|| a.alpha != b.alpha)
return 0;
}
if (a.mask & GFX_MASK_PRIORITY)
if (a.priority != b.priority)
return 0;
if (a.mask & GFX_MASK_CONTROL)
if (a.control != b.control)
return 0;
return 1;
}
static int
_gfxwop_basic_set_visual(gfxw_widget_t *widget, gfxw_visual_t *visual) {
widget->visual = visual;
if (widget->parent) {
DDIRTY(stderr, "basic_set_visual: DOWNWARDS rel(%d,%d,%d,%d, 1)\n",
GFX_PRINT_RECT(widget->bounds));
widget->parent->add_dirty_rel(widget->parent, widget->bounds, 1);
}
return 0;
}
static int
_gfxwop_basic_should_replace(gfxw_widget_t *widget, gfxw_widget_t *other) {
return 0;
}
static inline void
_gfxw_set_ops(gfxw_widget_t *widget, gfxw_point_op *draw, gfxw_op *free, gfxw_op *tag, gfxw_op_int *print,
gfxw_bin_op *compare_to, gfxw_bin_op *equals, gfxw_bin_op *superarea_of) {
widget->draw = draw;
widget->widfree = free;
widget->tag = tag;
widget->print = print;
widget->compare_to = compare_to;
widget->equals = equals;
widget->superarea_of = superarea_of;
widget->should_replace = _gfxwop_basic_should_replace;
widget->set_visual = _gfxwop_basic_set_visual;
}
void
gfxw_remove_widget_from_container(gfxw_container_t *container, gfxw_widget_t *widget) {
gfxw_widget_t **seekerp;
if (!container) {
GFXERROR("Attempt to remove widget from NULL container!\n");
BREAKPOINT();
}
seekerp = &(container->contents);
if (GFXW_IS_LIST(widget) && GFXW_IS_PORT(container)) {
gfxw_port_t *port = (gfxw_port_t *) container;
if (port->decorations == (gfxw_list_t *) widget) {
port->decorations = NULL;
return;
}
}
while (*seekerp && *seekerp != widget)
seekerp = &((*seekerp)->next);
if (!*seekerp) {
GFXERROR("Internal error: Attempt to remove widget from container it was not contained in!\n");
sciprintf("Widget:");
widget->print(GFXW(widget), 1);
sciprintf("Container:");
widget->print(GFXW(container), 1);
BREAKPOINT();
return;
}
if (container->nextpp == &(widget->next))
container->nextpp = seekerp;
*seekerp = widget->next; /* Remove it */
widget->parent = NULL;
widget->next = NULL;
}
static int
_gfxwop_basic_free(gfxw_widget_t *widget) {
gfxw_visual_t *visual = widget->visual;
gfx_state_t *state = (visual) ? visual->gfx_state : NULL;
DDIRTY(stderr, "BASIC-FREE: SomeAddDirty\n");
if (widget->parent) {
if (GFXW_IS_CONTAINER(widget))
widget->parent->add_dirty_abs(widget->parent, widget->bounds, 1);
else
widget->parent->add_dirty_rel(widget->parent, widget->bounds, 1);
gfxw_remove_widget_from_container(widget->parent, widget);
}
_gfxw_unallocate_widget(state, widget);
return 0;
}
static int
_gfxwop_basic_tag(gfxw_widget_t *widget) {
widget->flags |= GFXW_FLAG_TAGGED;
return 0;
}
static int
_gfxwop_basic_compare_to(gfxw_widget_t *widget, gfxw_widget_t *other) {
return 1;
}
static int
_gfxwop_basic_equals(gfxw_widget_t *widget, gfxw_widget_t *other) {
return 0;
}
static int
_gfxwop_basic_superarea_of(gfxw_widget_t *widget, gfxw_widget_t *other) {
return (widget == other);
}
/*-------------*/
/**** Boxes ****/
/*-------------*/
static inline rect_t
_move_rect(rect_t rect, Common::Point point) {
return gfx_rect(rect.x + point.x, rect.y + point.y, rect.xl, rect.yl);
}
static inline void
_split_rect(rect_t rect, Common::Point *p1, Common::Point *p2) {
p1->x = rect.x;
p1->y = rect.y;
p2->x = rect.x + rect.xl;
p2->y = rect.y + rect.yl;
}
static inline Common::Point
_move_point(rect_t rect, Common::Point point) {
return Common::Point(rect.x + point.x, rect.y + point.y);
}
static int
_gfxwop_box_draw(gfxw_widget_t *widget, Common::Point pos) {
gfxw_box_t *box = (gfxw_box_t *) widget;
DRAW_ASSERT(widget, GFXW_BOX);
GFX_ASSERT(gfxop_draw_box(box->visual->gfx_state, _move_rect(box->bounds, pos), box->color1,
box->color2, box->shade_type));
return 0;
}
static int
_gfxwop_box_print(gfxw_widget_t *widget, int indentation) {
_gfxw_print_widget(widget, indentation);
sciprintf("BOX");
return 0;
}
static int
_gfxwop_box_superarea_of(gfxw_widget_t *widget, gfxw_widget_t *other) {
gfxw_box_t *box = (gfxw_box_t *) widget;
if (box->color1.alpha)
return 0;
if (box->shade_type != GFX_BOX_SHADE_FLAT && box->color2.alpha)
return 0;
if (!gfx_rect_subset(other->bounds, box->bounds))
return 0;
return 1;
}
static int
_gfxwop_box_equals(gfxw_widget_t *widget, gfxw_widget_t *other) {
gfxw_box_t *wbox = (gfxw_box_t *) widget, *obox;
if (other->type != GFXW_BOX)
return 0;
obox = (gfxw_box_t *) other;
if (!gfx_rect_equals(wbox->bounds, obox->bounds))
return 0;
if (!_color_equals(wbox->color1, obox->color1))
return 0;
if (wbox->shade_type != obox->shade_type)
return 0;
if (wbox->shade_type != GFX_BOX_SHADE_FLAT
&& _color_equals(wbox->color2, obox->color2))
return 0;
return 1;
}
void
_gfxw_set_ops_BOX(gfxw_widget_t *widget) {
_gfxw_set_ops(GFXW(widget), _gfxwop_box_draw,
_gfxwop_basic_free,
_gfxwop_basic_tag,
_gfxwop_box_print,
_gfxwop_basic_compare_to,
_gfxwop_box_equals,
_gfxwop_box_superarea_of);
}
static inline int
_gfxw_color_get_priority(gfx_color_t color) {
return (color.mask & GFX_MASK_PRIORITY) ? color.priority : -1;
}
gfxw_box_t *
gfxw_new_box(gfx_state_t *state, rect_t area, gfx_color_t color1, gfx_color_t color2, gfx_box_shade_t shade_type) {
gfxw_box_t *widget = (gfxw_box_t *) _gfxw_new_widget(sizeof(gfxw_box_t), GFXW_BOX);
widget->widget_priority = _gfxw_color_get_priority(color1);
widget->bounds = area;
widget->color1 = color1;
widget->color2 = color2;
widget->shade_type = shade_type;
widget->flags |= GFXW_FLAG_VISIBLE;
if ((color1.mask & GFX_MASK_VISUAL)
&& ((state && (state->driver->mode->palette))
|| (!color1.alpha && !color2.alpha)))
widget->flags |= GFXW_FLAG_OPAQUE;
_gfxw_set_ops_BOX(GFXW(widget));
return widget;
}
static inline gfxw_primitive_t *
_gfxw_new_primitive(rect_t area, gfx_color_t color, gfx_line_mode_t mode,
gfx_line_style_t style, gfxw_widget_type_t type) {
gfxw_primitive_t *widget = (gfxw_primitive_t *) _gfxw_new_widget(sizeof(gfxw_primitive_t), type);
widget->widget_priority = _gfxw_color_get_priority(color);
widget->bounds = area;
widget->color = color;
widget->line_mode = mode;
widget->line_style = style;
widget->flags |= GFXW_FLAG_VISIBLE;
return widget;
}
/*------------------*/
/**** Rectangles ****/
/*------------------*/
static int
_gfxwop_primitive_equals(gfxw_widget_t *widget, gfxw_widget_t *other) {
gfxw_primitive_t *wprim = (gfxw_primitive_t *) widget, *oprim;
if (widget->type != other->type)
return 0;
oprim = (gfxw_primitive_t *) other;
if (!gfx_rect_equals(wprim->bounds, oprim->bounds))
return 0;
if (!_color_equals(wprim->color, oprim->color))
return 0;
if (wprim->line_mode != oprim->line_mode)
return 0;
if (wprim->line_style != oprim->line_style)
return 0;
return 1;
}
static int
_gfxwop_rect_draw(gfxw_widget_t *widget, Common::Point pos) {
gfxw_primitive_t *rect = (gfxw_primitive_t *) widget;
DRAW_ASSERT(widget, GFXW_RECT);
GFX_ASSERT(gfxop_draw_rectangle(rect->visual->gfx_state,
gfx_rect(rect->bounds.x + pos.x, rect->bounds.y + pos.y,
rect->bounds.xl - 1, rect->bounds.yl - 1),
rect->color, rect->line_mode, rect->line_style));
return 0;
}
static int
_gfxwop_rect_print(gfxw_widget_t *rect, int indentation) {
_gfxw_print_widget(GFXW(rect), indentation);
sciprintf("RECT");
return 0;
}
void
_gfxw_set_ops_RECT(gfxw_widget_t *prim) {
_gfxw_set_ops(GFXW(prim), _gfxwop_rect_draw,
_gfxwop_basic_free,
_gfxwop_basic_tag,
_gfxwop_rect_print,
_gfxwop_basic_compare_to,
_gfxwop_primitive_equals,
_gfxwop_basic_superarea_of);
}
gfxw_primitive_t *
gfxw_new_rect(rect_t rect, gfx_color_t color, gfx_line_mode_t line_mode, gfx_line_style_t line_style) {
gfxw_primitive_t *prim = _gfxw_new_primitive(rect, color, line_mode, line_style, GFXW_RECT);
prim->bounds.xl++;
prim->bounds.yl++; /* Since it is actually one pixel bigger in each direction */
_gfxw_set_ops_RECT(GFXW(prim));
return prim;
}
/*-------------*/
/**** Lines ****/
/*-------------*/
static int
_gfxwop_line_draw(gfxw_widget_t *widget, Common::Point pos) {
gfxw_primitive_t *line = (gfxw_primitive_t *) widget;
rect_t linepos = widget->bounds;
Common::Point p1, p2;
linepos.xl--;
linepos.yl--;
if (widget->type == GFXW_INVERSE_LINE) {
linepos.x += linepos.xl;
linepos.xl = -linepos.xl;
} else {
DRAW_ASSERT(widget, GFXW_LINE);
}
_split_rect(_move_rect(linepos, pos), &p1, &p2);
GFX_ASSERT(gfxop_draw_line(line->visual->gfx_state, p1, p2,
line->color, line->line_mode, line->line_style));
return 0;
}
static int
_gfxwop_line_print(gfxw_widget_t *widget, int indentation) {
_gfxw_print_widget(widget, indentation);
if (widget->type == GFXW_INVERSE_LINE)
sciprintf("INVERSE-LINE");
else
sciprintf("LINE");
return 0;
}
void
_gfxw_set_ops_LINE(gfxw_widget_t *prim) {
_gfxw_set_ops(GFXW(prim), _gfxwop_line_draw,
_gfxwop_basic_free,
_gfxwop_basic_tag,
_gfxwop_line_print,
_gfxwop_basic_compare_to,
_gfxwop_primitive_equals,
_gfxwop_basic_superarea_of);
}
gfxw_primitive_t *
gfxw_new_line(Common::Point start, Common::Point end, gfx_color_t color, gfx_line_mode_t line_mode, gfx_line_style_t line_style) {
gfxw_primitive_t *prim;
/* Encode into internal representation */
rect_t line = gfx_rect(start.x, start.y, end.x - start.x, end.y - start.y);
byte inverse = 0;
if (line.xl < 0) {
line.x += line.xl;
line.y += line.yl;
line.xl = -line.xl;
line.yl = -line.yl;
}
if (line.yl < 0) {
inverse = 1;
line.x += line.xl;
line.xl = -line.xl;
}
line.xl++;
line.yl++;
prim = _gfxw_new_primitive(line, color, line_mode, line_style, inverse ? GFXW_INVERSE_LINE : GFXW_LINE);
_gfxw_set_ops_LINE(GFXW(prim));
return prim;
}
/*------------------------------*/
/**** Views and static views ****/
/*------------------------------*/
gfxw_view_t *
_gfxw_new_simple_view(gfx_state_t *state, Common::Point pos, int view, int loop, int cel, int palette, int priority, int control,
gfx_alignment_t halign, gfx_alignment_t valign, int size, gfxw_widget_type_t type) {
gfxw_view_t *widget;
int width, height;
Common::Point offset;
if (!state) {
GFXERROR("Attempt to create view widget with NULL state!\n");
return NULL;
}
if (gfxop_get_cel_parameters(state, view, loop, cel, &width, &height, &offset)) {
GFXERROR("Attempt to retrieve cel parameters for (%d/%d/%d) failed (Maybe the values weren't checked beforehand?)\n",
view, cel, loop);
return NULL;
}
widget = (gfxw_view_t *) _gfxw_new_widget(size, type);
widget->widget_priority = priority;
widget->pos = pos;
widget->color.mask =
((priority < 0) ? 0 : GFX_MASK_PRIORITY)
| ((control < 0) ? 0 : GFX_MASK_CONTROL);
widget->color.priority = priority;
widget->color.control = control;
widget->view = view;
widget->loop = loop;
widget->cel = cel;
widget->palette = palette;
if (halign == ALIGN_CENTER)
widget->pos.x -= width >> 1;
else if (halign == ALIGN_RIGHT)
widget->pos.x -= width;
if (valign == ALIGN_CENTER)
widget->pos.y -= height >> 1;
else if (valign == ALIGN_BOTTOM)
widget->pos.y -= height;
widget->bounds = gfx_rect(widget->pos.x - offset.x, widget->pos.y - offset.y, width, height);
widget->flags |= GFXW_FLAG_VISIBLE;
return widget;
}
int
_gfxwop_view_draw(gfxw_widget_t *widget, Common::Point pos) {
gfxw_view_t *view = (gfxw_view_t *) widget;
DRAW_ASSERT(widget, GFXW_VIEW);
GFX_ASSERT(gfxop_draw_cel(view->visual->gfx_state, view->view, view->loop,
view->cel, Common::Point(view->pos.x + pos.x, view->pos.y + pos.y),
view->color, view->palette));
return 0;
}
static int
_gfxwop_static_view_draw(gfxw_widget_t *widget, Common::Point pos) {
gfxw_view_t *view = (gfxw_view_t *) widget;
DRAW_ASSERT(widget, GFXW_VIEW);
GFX_ASSERT(gfxop_draw_cel_static(view->visual->gfx_state, view->view, view->loop,
view->cel, _move_point(view->bounds, pos),
view->color, view->palette));
return 0;
}
static int
_w_gfxwop_view_print(gfxw_widget_t *widget, const char *name, int indentation) {
gfxw_view_t *view = (gfxw_view_t *) widget;
_gfxw_print_widget(widget, indentation);
sciprintf(name);
sciprintf("(%d/%d/%d)@(%d,%d)[p:%d,c:%d]", view->view, view->loop, view->cel, view->pos.x, view->pos.y,
(view->color.mask & GFX_MASK_PRIORITY) ? view->color.priority : -1,
(view->color.mask & GFX_MASK_CONTROL) ? view->color.control : -1);
return 0;
}
static int
_gfxwop_view_print(gfxw_widget_t *widget, int indentation) {
return _w_gfxwop_view_print(widget, "VIEW", indentation);
}
static int
_gfxwop_static_view_print(gfxw_widget_t *widget, int indentation) {
return _w_gfxwop_view_print(widget, "PICVIEW", indentation);
}
void
_gfxw_set_ops_VIEW(gfxw_widget_t *view, char stat) {
_gfxw_set_ops(GFXW(view), (stat) ? _gfxwop_static_view_draw : _gfxwop_view_draw,
_gfxwop_basic_free,
_gfxwop_basic_tag,
(stat) ? _gfxwop_static_view_print : _gfxwop_view_print,
_gfxwop_basic_compare_to,
_gfxwop_basic_equals,
_gfxwop_basic_superarea_of);
}
gfxw_view_t *
gfxw_new_view(gfx_state_t *state, Common::Point pos, int view_nr, int loop, int cel, int palette, int priority, int control,
gfx_alignment_t halign, gfx_alignment_t valign, int flags) {
gfxw_view_t *view;
if (flags & GFXW_VIEW_FLAG_DONT_MODIFY_OFFSET) {
int foo;
Common::Point offset;
gfxop_get_cel_parameters(state, view_nr, loop, cel, &foo, &foo, &offset);
pos.x += offset.x;
pos.y += offset.y;
}
view = _gfxw_new_simple_view(state, pos, view_nr, loop, cel, palette, priority, control, halign, valign,
sizeof(gfxw_view_t), (flags & GFXW_VIEW_FLAG_STATIC) ? GFXW_STATIC_VIEW : GFXW_VIEW);
_gfxw_set_ops_VIEW(GFXW(view), (char)(flags & GFXW_VIEW_FLAG_STATIC));
return view;
}
/*---------------------*/
/**** Dynamic Views ****/
/*---------------------*/
static int
_gfxwop_dyn_view_draw(gfxw_widget_t *widget, Common::Point pos) {
gfxw_dyn_view_t *view = (gfxw_dyn_view_t *) widget;
DRAW_ASSERT(widget, GFXW_DYN_VIEW);
GFX_ASSERT(gfxop_draw_cel(view->visual->gfx_state, view->view, view->loop,
view->cel, _move_point(view->draw_bounds, pos),
view->color, view->palette));
/*
gfx_color_t red; red.visual.r = 0xff; red.visual.g = red.visual.b = 0; red.mask = GFX_MASK_VISUAL;
GFX_ASSERT(gfxop_draw_rectangle(view->visual->gfx_state,
gfx_rect(view->bounds.x + pos.x, view->bounds.y + pos.y,
view->bounds.xl - 1, view->bounds.yl - 1),
red, 0, 0));
*/
return 0;
}
static int
_gfxwop_draw_nop(gfxw_widget_t *widget, Common::Point pos) {
return 0;
}
static int
_gfxwop_pic_view_draw(gfxw_widget_t *widget, Common::Point pos) {
gfxw_dyn_view_t *view = (gfxw_dyn_view_t *) widget;
DRAW_ASSERT(widget, GFXW_PIC_VIEW);
GFX_ASSERT(gfxop_set_clip_zone(view->visual->gfx_state, view->parent->zone));
GFX_ASSERT(gfxop_draw_cel_static_clipped(view->visual->gfx_state,
view->view, view->loop,
view->cel,
_move_point(view->draw_bounds, pos),
view->color, view->palette));
/* Draw again on the back buffer */
GFX_ASSERT(gfxop_draw_cel(view->visual->gfx_state,
view->view, view->loop,
view->cel,
_move_point(view->draw_bounds, pos),
view->color, view->palette));
widget->draw = _gfxwop_draw_nop; /* No more drawing needs to be done */
return 0;
}
static int
_gfxwop_some_view_print(gfxw_widget_t *widget, int indentation, const char *type_string) {
gfxw_dyn_view_t *view = (gfxw_dyn_view_t *) widget;
_gfxw_print_widget(widget, indentation);
sciprintf(type_string);
sciprintf(" SORT=%d z=%d seq=%d (%d/%d/%d)@(%d,%d)[p:%d,c:%d]; sig[%04x@%04x]", view->force_precedence, view->z,
view->sequence, view->view, view->loop, view->cel, view->pos.x, view->pos.y,
(view->color.mask & GFX_MASK_PRIORITY) ? view->color.priority : -1,
(view->color.mask & GFX_MASK_CONTROL) ? view->color.control : -1,
view->signal, view->signalp);
return 0;
}
static int
_gfxwop_dyn_view_print(gfxw_widget_t *widget, int indentation) {
return _gfxwop_some_view_print(widget, indentation, "DYNVIEW");
}
static int
_gfxwop_pic_view_print(gfxw_widget_t *widget, int indentation) {
return _gfxwop_some_view_print(widget, indentation, "PICVIEW");
}
static int
_gfxwop_dyn_view_equals(gfxw_widget_t *widget, gfxw_widget_t *other) {
gfxw_dyn_view_t *wview = (gfxw_dyn_view_t *) widget, *oview;
if (!GFXW_IS_DYN_VIEW(other))
return 0;
oview = (gfxw_dyn_view_t *) other;
if (wview->pos.x != oview->pos.x
|| wview->pos.y != oview->pos.y
|| wview->z != oview->z)
return 0;
if (wview->view != oview->view
|| wview->loop != oview->loop
|| wview->cel != oview->cel)
return 0;
if (!_color_equals(wview->color, oview->color))
return 0;
if (wview->flags != oview->flags)
return 0;
return 1;
}
static int
_gfxwop_dyn_view_compare_to(gfxw_widget_t *widget, gfxw_widget_t *other) {
int retval;
gfxw_dyn_view_t *wview = (gfxw_dyn_view_t *) widget, *oview;
if (!GFXW_IS_DYN_VIEW(other))
return 1;
oview = (gfxw_dyn_view_t *) other;
retval = wview->force_precedence - oview->force_precedence;
if (retval)
return retval;
retval = wview->pos.y - oview->pos.y;
if (retval)
return retval;
retval = (wview->z - oview->z);
if (retval)
return retval;
return -(wview->sequence - oview->sequence);
}
void
_gfxw_set_ops_DYNVIEW(gfxw_widget_t *widget) {
_gfxw_set_ops(GFXW(widget), _gfxwop_dyn_view_draw,
_gfxwop_basic_free,
_gfxwop_basic_tag,
_gfxwop_dyn_view_print,
_gfxwop_dyn_view_compare_to,
_gfxwop_dyn_view_equals,
_gfxwop_basic_superarea_of);
}
void
_gfxw_set_ops_PICVIEW(gfxw_widget_t *widget) {
_gfxw_set_ops_DYNVIEW(widget);
widget->draw = _gfxwop_pic_view_draw;
widget->print = _gfxwop_pic_view_print;
}
gfxw_dyn_view_t *
gfxw_new_dyn_view(gfx_state_t *state, Common::Point pos, int z, int view, int loop, int cel, int palette, int priority, int control,
gfx_alignment_t halign, gfx_alignment_t valign, int sequence) {
gfxw_dyn_view_t *widget;
int width, height;
int xalignmod, yalignmod;
Common::Point offset;
if (!state) {
GFXERROR("Attempt to create view widget with NULL state!\n");
return NULL;
}
if (gfxop_get_cel_parameters(state, view, loop, cel, &width, &height, &offset)) {
GFXERROR("Attempt to retrieve cel parameters for (%d/%d/%d) failed (Maybe the values weren't checked beforehand?)\n",
view, cel, loop);
return NULL;
}
widget = (gfxw_dyn_view_t *) _gfxw_new_widget(sizeof(gfxw_dyn_view_t), GFXW_DYN_VIEW);
widget->pos = pos;
widget->color.mask =
((priority < 0) ? 0 : GFX_MASK_PRIORITY)
| ((control < 0) ? 0 : GFX_MASK_CONTROL);
widget->widget_priority = priority;
widget->color.priority = priority;
widget->color.control = control;
widget->color.alpha = 0;
widget->color.visual.global_index = 0;
widget->color.visual.r = 0;
widget->color.visual.g = 0;
widget->color.visual.b = 0;
widget->view = view;
widget->loop = loop;
widget->cel = cel;
widget->sequence = sequence;
widget->force_precedence = 0;
widget->palette = palette;
if (halign == ALIGN_CENTER)
xalignmod = width >> 1;
else if (halign == ALIGN_RIGHT)
xalignmod = width;
else
xalignmod = 0;
if (valign == ALIGN_CENTER)
yalignmod = height >> 1;
else if (valign == ALIGN_BOTTOM)
yalignmod = height;
else
yalignmod = 0;
widget->z = z;
widget->draw_bounds = gfx_rect(widget->pos.x - xalignmod,
widget->pos.y - yalignmod - z, width, height);
widget->bounds = gfx_rect(widget->pos.x - offset.x - xalignmod,
widget->pos.y - offset.y - yalignmod - z, width, height);
widget->flags |= GFXW_FLAG_VISIBLE;
_gfxw_set_ops_DYNVIEW(GFXW(widget));
widget->signalp = NULL;
widget->signal = 0;
return widget;
}
/*------------*/
/**** Text ****/
/*------------*/
static int
_gfxwop_text_free(gfxw_widget_t *widget) {
gfxw_text_t *text = (gfxw_text_t *) widget;
free(text->text);
return _gfxwop_basic_free(widget);
}
static int
_gfxwop_text_draw(gfxw_widget_t *widget, Common::Point pos) {
gfxw_text_t *text = (gfxw_text_t *) widget;
DRAW_ASSERT(widget, GFXW_TEXT);
GFX_ASSERT(gfxop_draw_text(text->visual->gfx_state, text->text_handle, _move_rect(text->bounds, pos)));
return 0;
}
static int
_gfxwop_text_alloc_and_draw(gfxw_widget_t *widget, Common::Point pos) {
gfxw_text_t *text = (gfxw_text_t *) widget;
DRAW_ASSERT(widget, GFXW_TEXT);
text->text_handle =
gfxop_new_text(widget->visual->gfx_state, text->font_nr, text->text, text->bounds.xl,
text->halign, text->valign, text->color1,
text->color2, text->bgcolor, text->text_flags);
text->draw = _gfxwop_text_draw;
return _gfxwop_text_draw(widget, pos);
}
static int
_gfxwop_text_print(gfxw_widget_t *widget, int indentation) {
_gfxw_print_widget(widget, indentation);
sciprintf("TEXT:'%s'", ((gfxw_text_t *)widget)->text);
return 0;
}
static int
_gfxwop_text_equals(gfxw_widget_t *widget, gfxw_widget_t *other) {
gfxw_text_t *wtext = (gfxw_text_t *) widget, *otext;
if (other->type != GFXW_TEXT)
return 0;
otext = (gfxw_text_t *) other;
if ((wtext->bounds.x != otext->bounds.x)
|| (wtext->bounds.y != otext->bounds.y))
return 0;
if (wtext->halign != otext->halign
|| wtext->valign != otext->valign)
return 0;
if (wtext->text_flags != otext->text_flags)
return 0;
if (wtext->font_nr != otext->font_nr)
return 0;
/* if (!(_color_equals(wtext->color1, otext->color1)
&& _color_equals(wtext->color2, otext->color2)
&& _color_equals(wtext->bgcolor, otext->bgcolor)))
return 0; */
return 1;
}
static int
_gfxwop_text_should_replace(gfxw_widget_t *widget, gfxw_widget_t *other) {
gfxw_text_t *wtext = (gfxw_text_t *) widget, *otext;
if (other->type != GFXW_TEXT)
return 0;
otext = (gfxw_text_t *) other;
return strcmp(wtext->text, otext->text);
}
static int
_gfxwop_text_compare_to(gfxw_widget_t *widget, gfxw_widget_t *other) {
return 1;
}
void
_gfxw_set_ops_TEXT(gfxw_widget_t *widget) {
_gfxw_set_ops(GFXW(widget), _gfxwop_text_alloc_and_draw,
_gfxwop_text_free,
_gfxwop_basic_tag,
_gfxwop_text_print,
_gfxwop_text_compare_to,
_gfxwop_text_equals,
_gfxwop_basic_superarea_of);
widget->should_replace = _gfxwop_text_should_replace;
}
gfxw_text_t *
gfxw_new_text(gfx_state_t *state, rect_t area, int font, const char *text, gfx_alignment_t halign,
gfx_alignment_t valign, gfx_color_t color1, gfx_color_t color2,
gfx_color_t bgcolor, int text_flags) {
gfxw_text_t *widget = (gfxw_text_t *)
_gfxw_new_widget(sizeof(gfxw_text_t), GFXW_TEXT);
widget->widget_priority = _gfxw_color_get_priority(color1);
widget->font_nr = font;
widget->text = (char*)sci_malloc(strlen(text) + 1);
widget->halign = halign;
widget->valign = valign;
widget->color1 = color1;
widget->color2 = color2;
widget->bgcolor = bgcolor;
widget->text_flags = text_flags;
widget->text_handle = NULL;
strcpy(widget->text, text);
gfxop_get_text_params(state, font, text, area.xl, &(widget->width),
&(widget->height), text_flags,
&(widget->lines_nr), &(widget->lineheight),
&(widget->lastline_width));
/* FIXME: Window is too big
area.x += _calc_needmove(halign, area.xl, widget->width);
area.y += _calc_needmove(valign, area.yl, widget->height);
*/
if (halign == ALIGN_LEFT)
area.xl = widget->width;
if (valign == ALIGN_TOP)
area.yl = widget->height;
widget->bounds = area;
widget->flags |= GFXW_FLAG_VISIBLE;
_gfxw_set_ops_TEXT(GFXW(widget));
return widget;
}
void
gfxw_text_info(gfx_state_t *state, gfxw_text_t *text, int *lines,
int *lineheight, int *offset) {
if (lines)
*lines = text->lines_nr;
if (lineheight)
*lineheight = text->lineheight;
if (offset)
*offset = text->lastline_width;
}
/***********************/
/*-- Container types --*/
/***********************/
static int
_gfxwop_container_add_dirty_rel(gfxw_container_t *cont, rect_t rect, int propagate) {
DDIRTY(stderr, "->container_add_dirty_rel(%d,%d,%d,%d, %d)\n", GFX_PRINT_RECT(rect), propagate);
return cont->add_dirty_abs(cont, _move_rect(rect, Common::Point(cont->zone.x, cont->zone.y)), propagate);
}
static inline void
_gfxw_set_container_ops(gfxw_container_t *container, gfxw_point_op *draw, gfxw_op *free, gfxw_op *tag,
gfxw_op_int *print, gfxw_bin_op *compare_to, gfxw_bin_op *equals,
gfxw_bin_op *superarea_of, gfxw_visual_op *set_visual,
gfxw_unary_container_op *free_tagged, gfxw_unary_container_op *free_contents,
gfxw_rect_op *add_dirty, gfxw_container_op *add) {
_gfxw_set_ops(GFXW(container),
draw,
free,
tag,
print,
compare_to,
equals,
superarea_of);
container->free_tagged = free_tagged;
container->free_contents = free_contents;
container->add_dirty_abs = add_dirty;
container->add_dirty_rel = _gfxwop_container_add_dirty_rel;
container->add = add;
container->set_visual = set_visual;
}
static int
_w_gfxwop_container_print_contents(const char *name, gfxw_widget_t *widget, int indentation) {
gfxw_widget_t *seeker = widget;
indent(indentation);
sciprintf("--%s:\n", name);
while (seeker) {
seeker->print(seeker, indentation + 1);
sciprintf("\n");
seeker = seeker->next;
}
return 0;
}
static int
_w_gfxwop_container_print(gfxw_widget_t *widget, int indentation) {
gfx_dirty_rect_t *dirty;
gfxw_container_t *container = (gfxw_container_t *) widget;
if (!GFXW_IS_CONTAINER(widget)) {
GFXERROR("_w_gfxwop_container_print() called on type %d widget\n", widget->type);
return 1;
}
sciprintf(" viszone=((%d,%d),(%dx%d))\n", container->zone.x, container->zone.y,
container->zone.xl, container->zone.yl);
indent(indentation);
sciprintf("--dirty:\n");
dirty = container->dirty;
while (dirty) {
indent(indentation + 1);
sciprintf("dirty(%d,%d, (%dx%d))\n",
dirty->rect.x, dirty->rect.y, dirty->rect.xl, dirty->rect.yl);
dirty = dirty->next;
}
_w_gfxwop_container_print_contents("contents", container->contents, indentation);
return 0;
}
gfxw_container_t *
_gfxw_new_container_widget(rect_t area, int size, gfxw_widget_type_t type) {
gfxw_container_t *widget = (gfxw_container_t *)
_gfxw_new_widget(size, type);
widget->bounds = widget->zone = area;
widget->contents = NULL;
widget->nextpp = &(widget->contents);
widget->dirty = NULL;
widget->flags |= GFXW_FLAG_VISIBLE | GFXW_FLAG_CONTAINER;
return widget;
}
static void
recursively_free_dirty_rects(gfx_dirty_rect_t *dirty) {
if (dirty) {
recursively_free_dirty_rects(dirty->next);
free(dirty);
}
}
int ti = 0;
static inline int
_gfxw_dirty_rect_overlaps_normal_rect(rect_t port_zone, rect_t bounds, rect_t dirty) {
bounds.x += port_zone.x;
bounds.y += port_zone.y;
return gfx_rects_overlap(bounds, dirty);
}
static int
_gfxwop_container_draw_contents(gfxw_widget_t *widget, gfxw_widget_t *contents) {
gfxw_container_t *container = (gfxw_container_t *) widget;
gfx_dirty_rect_t *dirty = container->dirty;
gfx_state_t *gfx_state = (widget->visual) ? widget->visual->gfx_state : ((gfxw_visual_t *) widget)->gfx_state;
int draw_ports;
rect_t nullzone = {0, 0, 0, 0};
if (!contents)
return 0;
while (dirty) {
gfxw_widget_t *seeker = contents;
while (seeker) {
if (_gfxw_dirty_rect_overlaps_normal_rect(GFXW_IS_CONTAINER(seeker) ? nullzone : container->zone,
/* Containers have absolute coordinates, reflect this. */
seeker->bounds, dirty->rect)) {
if (GFXW_IS_CONTAINER(seeker)) {/* Propagate dirty rectangles /upwards/ */
DDIRTY(stderr, "container_draw_contents: propagate upwards (%d,%d,%d,%d ,0)\n", GFX_PRINT_RECT(dirty->rect));
((gfxw_container_t *)seeker)->add_dirty_abs((gfxw_container_t *)seeker, dirty->rect, 0);
}
seeker->flags |= GFXW_FLAG_DIRTY;
}
seeker = seeker->next;
}
dirty = dirty->next;
}
/* The draw loop is executed twice: Once for normal data, and once for ports. */
for (draw_ports = 0; draw_ports < 2; draw_ports++) {
dirty = container->dirty;
while (dirty) {
gfxw_widget_t *seeker = contents;
while (seeker && (draw_ports || !GFXW_IS_PORT(seeker))) {
rect_t small_rect;
byte draw_noncontainers;
memcpy(&small_rect, &(dirty->rect), sizeof(rect_t));
draw_noncontainers = !_gfxop_clip(&small_rect, container->bounds);
if (seeker->flags & GFXW_FLAG_DIRTY) {
if (!GFXW_IS_CONTAINER(seeker) && draw_noncontainers) {
GFX_ASSERT(gfxop_set_clip_zone(gfx_state, small_rect));
}
/* Clip zone must be reset after each element, because we might
** descend into containers.
** Doing this is relatively cheap, though. */
if (draw_noncontainers || GFXW_IS_CONTAINER(seeker))
seeker->draw(seeker, Common::Point(container->zone.x, container->zone.y));
if (!dirty->next)
seeker->flags &= ~GFXW_FLAG_DIRTY;
}
seeker = seeker->next;
}
dirty = dirty->next;
}
}
/* Remember that the dirty rects should be freed afterwards! */
return 0;
}
static int
_gfxwop_container_free(gfxw_widget_t *widget) {
gfxw_container_t *container = (gfxw_container_t *) widget;
gfxw_widget_t *seeker = container->contents;
while (seeker) {
gfxw_widget_t *next = seeker->next;
seeker->widfree(seeker);
seeker = next;
}
recursively_free_dirty_rects(container->dirty);
container->dirty = NULL;
return _gfxwop_basic_free(widget);
}
static int
_gfxwop_container_tag(gfxw_widget_t *widget) {
gfxw_container_t *container = (gfxw_container_t *) widget;
gfxw_widget_t *seeker = container->contents;
while (seeker) {
seeker->tag(seeker);
seeker = seeker->next;
}
return 0;
}
static int
_w_gfxwop_container_set_visual_contents(gfxw_widget_t *contents, gfxw_visual_t *visual) {
while (contents) {
contents->set_visual(contents, visual);
contents = contents->next;
}
return 0;
}
static int
_gfxwop_container_set_visual(gfxw_widget_t *widget, gfxw_visual_t *visual) {
gfxw_container_t *container = (gfxw_container_t *) widget;
container->visual = visual;
if (widget->parent) {
if (!(GFXW_IS_LIST(widget) && !GFXWC(widget)->contents)) {
DDIRTY(stderr, "set_visual::DOWNWARDS abs(%d,%d,%d,%d, 1)\n", GFX_PRINT_RECT(widget->bounds));
widget->parent->add_dirty_abs(widget->parent, widget->bounds, 1);
}
}
return _w_gfxwop_container_set_visual_contents(container->contents, visual);
}
static int
_gfxwop_container_free_tagged(gfxw_container_t *container) {
gfxw_widget_t *seekerp = (container->contents);
while (seekerp) {
gfxw_widget_t *redshirt = seekerp;
if (redshirt->flags & GFXW_FLAG_TAGGED) {
seekerp = (redshirt->next);
redshirt->widfree(redshirt); /* He's dead, Jim. */
} else
seekerp = (seekerp)->next;
}
return 0;
}
static int
_gfxwop_container_free_contents(gfxw_container_t *container) {
gfxw_widget_t *seeker = container->contents;
while (seeker) {
gfxw_widget_t *next = seeker->next;
seeker->widfree(seeker);
seeker = next;
}
return 0;
}
static void
_gfxw_dirtify_container(gfxw_container_t *container, gfxw_widget_t *widget) {
if (GFXW_IS_CONTAINER(widget))
container->add_dirty_abs(GFXWC(container), widget->bounds, 1);
else
container->add_dirty_rel(GFXWC(container), widget->bounds, 1);
}
static int
_parentize_widget(gfxw_container_t *container, gfxw_widget_t *widget) {
if (widget->parent) {
GFXERROR("_gfxwop_container_add(): Attempt to give second parent node to widget!\nWidget:");
widget->print(GFXW(widget), 3);
sciprintf("\nContainer:");
container->print(GFXW(container), 3);
return 1;
}
widget->parent = GFXWC(container);
if (GFXW_IS_VISUAL(container))
widget->set_visual(widget, (gfxw_visual_t *) container);
else if (container->visual)
widget->set_visual(widget, container->visual);
return 0;
}
static int
_gfxw_container_id_equals(gfxw_container_t *container, gfxw_widget_t *widget) {
gfxw_widget_t **seekerp = &(container->contents);
if (GFXW_IS_PORT(widget))
return 0; /* Don't match ports */
if (widget->ID == GFXW_NO_ID)
return 0;
while (*seekerp
&& ((*seekerp)->ID != widget->ID
|| (*seekerp)->subID != widget->subID))
seekerp = &((*seekerp)->next);
if (!*seekerp)
return 0;
if ((*seekerp)->equals(*seekerp, widget)
&& !(*seekerp)->should_replace(*seekerp, widget)) {
widget->widfree(widget);
(*seekerp)->flags &= ~GFXW_FLAG_TAGGED;
return 1;
} else {
if (!(widget->flags & GFXW_FLAG_MULTI_ID))
(*seekerp)->widfree(*seekerp);
return 0;
}
}
static int
_gfxwop_container_add_dirty(gfxw_container_t *container, rect_t dirty, int propagate) {
#if 0
/* This code has been disabled because containers may contain sub-containers with
** bounds greater than their own. */
if (_gfxop_clip(&dirty, container->bounds))
return 0;
#endif
DDIRTY(stderr, "Effectively adding dirty %d,%d,%d,%d %d to ID %d\n", GFX_PRINT_RECT(dirty), propagate, container->ID);
container->dirty = gfxdr_add_dirty(container->dirty, dirty, GFXW_DIRTY_STRATEGY);
return 0;
}
static int
_gfxwop_container_add(gfxw_container_t *container, gfxw_widget_t *widget) {
if (_gfxw_container_id_equals(container, widget))
return 0;
if (_parentize_widget(container, widget))
return 1;
if (!(GFXW_IS_LIST(widget) && (!GFXWC(widget)->contents))) { /* Don't dirtify self on empty lists */
DDIRTY(stderr, "container_add: dirtify DOWNWARDS (%d,%d,%d,%d, 1)\n", GFX_PRINT_RECT(widget->bounds));
_gfxw_dirtify_container(container, widget);
}
*(container->nextpp) = widget;
container->nextpp = &(widget->next);
return 0;
}
/*------------------------------*/
/**** Lists and sorted lists ****/
/*------------------------------*/
static int
_gfxwop_list_draw(gfxw_widget_t *list, Common::Point pos) {
DRAW_ASSERT(list, GFXW_LIST);
_gfxwop_container_draw_contents(list, ((gfxw_list_t *)list)->contents);
recursively_free_dirty_rects(GFXWC(list)->dirty);
GFXWC(list)->dirty = NULL;
list->flags &= ~GFXW_FLAG_DIRTY;
return 0;
}
static int
_gfxwop_sorted_list_draw(gfxw_widget_t *list, Common::Point pos) {
DRAW_ASSERT(list, GFXW_SORTED_LIST);
_gfxwop_container_draw_contents(list, ((gfxw_list_t *)list)->contents);
recursively_free_dirty_rects(GFXWC(list)->dirty);
GFXWC(list)->dirty = NULL;
return 0;
}
static inline int
_w_gfxwop_list_print(gfxw_widget_t *list, const char *name, int indentation) {
_gfxw_print_widget(list, indentation);
sciprintf(name);
return _w_gfxwop_container_print(list, indentation);
}
static int
_gfxwop_list_print(gfxw_widget_t *list, int indentation) {
return _w_gfxwop_list_print(list, "LIST", indentation);
}
static int
_gfxwop_sorted_list_print(gfxw_widget_t *list, int indentation) {
return _w_gfxwop_list_print(list, "SORTED_LIST", indentation);
}
/* --- */
#if 0
struct gfxw_widget_list {
gfxw_widget_t *widget;
struct gfxw_widget_list *next;
};
static struct gfxw_widtet_list *
_gfxw_make_widget_list_recursive(gfxw_widget_t *widget) {
gfxw_widget_list *node;
if (!widget)
return NULL;
node = sci_malloc(sizeof(struct gfxw_widget_list));
node->widget = widget;
node->next = _gfxw_make_widget_list_recursive(widget->next);
return node;
}
static struct gfxw_widget_list *
_gfxw_make_widget_list(gfxw_container_t *container) {
return _gfxw_make_widget_list_recursive(container->contents);
}
#endif
/* --- */
static int
_gfxwop_list_equals(gfxw_widget_t *widget, gfxw_widget_t *other)
/* Requires identical order of list elements. */
{
gfxw_list_t *wlist, *olist;
if (widget->type != other->type)
return 0;
if (!GFXW_IS_LIST(widget)) {
GFXWARN("_gfxwop_list_equals(): Method called on non-list!\n");
widget->print(widget, 0);
sciprintf("\n");
return 0;
}
wlist = (gfxw_list_t *) widget;
olist = (gfxw_list_t *) other;
if (memcmp(&(wlist->bounds), &(olist->bounds), sizeof(rect_t)))
return 0;
widget = wlist->contents;
other = olist->contents;
while (widget && other) {
if (!(widget->equals(widget, other) && !widget->should_replace(widget, other)))
return 0;
widget = widget->next;
other = other->next;
}
return (!widget && !other); /* True if both are finished now */
}
static int
_gfxwop_list_add_dirty(gfxw_container_t *container, rect_t dirty, int propagate) {
/* Lists add dirty boxes to both themselves and their parenting port/visual */
container->flags |= GFXW_FLAG_DIRTY;
DDIRTY(stderr, "list_add_dirty %d,%d,%d,%d %d\n", GFX_PRINT_RECT(dirty), propagate);
if (propagate)
if (container->parent) {
DDIRTY(stderr, "->PROPAGATING\n");
container->parent->add_dirty_abs(container->parent, dirty, 1);
}
return _gfxwop_container_add_dirty(container, dirty, propagate);
}
/* static inline */
int
_gfxwop_ordered_add(gfxw_container_t *container, gfxw_widget_t *widget, int compare_all)
/* O(n) */
{
gfxw_widget_t **seekerp = &(container->contents);
if (widget->next) {
GFXERROR("_gfxwop_sorted_list_add(): Attempt to add widget to two lists!\nWidget:");
widget->print(GFXW(widget), 3);
sciprintf("\nList:");
container->print(GFXW(container), 3);
BREAKPOINT();
return 1;
}
if (_gfxw_container_id_equals(container, widget))
return 0;
while (*seekerp && (compare_all || (widget->compare_to(widget, *seekerp) >= 0))) {
if (widget->equals(GFXW(widget), GFXW(*seekerp))) {
if (compare_all) {
if ((*seekerp)->visual)
(*seekerp)->widfree(GFXW(*seekerp)); /* If it's a fresh widget */
else
gfxw_annihilate(GFXW(*seekerp));
return _gfxwop_ordered_add(container, widget, compare_all); /* We might have destroyed the container's contents */
} else {
widget->next = (*seekerp)->next;
(*seekerp)->widfree(GFXW(*seekerp));
*seekerp = widget;
return (_parentize_widget(container, widget));
}
}
if (*seekerp)
seekerp = &((*seekerp)->next);
}
widget->next = *seekerp;
*seekerp = widget;
return _parentize_widget(container, widget);
}
static int
_gfxwop_sorted_list_add(gfxw_container_t *container, gfxw_widget_t *widget)
/* O(n) */
{
return _gfxwop_ordered_add(container, widget, 0);
}
void
_gfxw_set_ops_LIST(gfxw_container_t *list, char sorted) {
_gfxw_set_container_ops((gfxw_container_t *) list,
sorted ? _gfxwop_sorted_list_draw : _gfxwop_list_draw,
_gfxwop_container_free,
_gfxwop_container_tag,
sorted ? _gfxwop_sorted_list_print : _gfxwop_list_print,
_gfxwop_basic_compare_to,
sorted ? _gfxwop_basic_equals : _gfxwop_list_equals,
_gfxwop_basic_superarea_of,
_gfxwop_container_set_visual,
_gfxwop_container_free_tagged,
_gfxwop_container_free_contents,
_gfxwop_list_add_dirty,
sorted ? _gfxwop_sorted_list_add : _gfxwop_container_add);
}
gfxw_list_t *
gfxw_new_list(rect_t area, int sorted) {
gfxw_list_t *list = (gfxw_list_t *) _gfxw_new_container_widget(area, sizeof(gfxw_list_t),
sorted ? GFXW_SORTED_LIST : GFXW_LIST);
_gfxw_set_ops_LIST(GFXWC(list), (char)sorted);
return list;
}
/*---------------*/
/**** Visuals ****/
/*---------------*/
static int
_gfxwop_visual_draw(gfxw_widget_t *widget, Common::Point pos) {
gfxw_visual_t *visual = (gfxw_visual_t *) widget;
gfx_dirty_rect_t *dirty = visual->dirty;
DRAW_ASSERT(widget, GFXW_VISUAL);
while (dirty) {
int err = gfxop_clear_box(visual->gfx_state, dirty->rect);
if (err) {
GFXERROR("Error while clearing dirty rect (%d,%d,(%dx%d))\n", dirty->rect.x,
dirty->rect.y, dirty->rect.xl, dirty->rect.yl);
if (err == GFX_FATAL)
return err;
}
dirty = dirty->next;
}
_gfxwop_container_draw_contents(widget, visual->contents);
recursively_free_dirty_rects(visual->dirty);
visual->dirty = NULL;
widget->flags &= ~GFXW_FLAG_DIRTY;
return 0;
}
static int
_gfxwop_visual_free(gfxw_widget_t *widget) {
gfxw_visual_t *visual = (gfxw_visual_t *) widget;
gfxw_port_t **portrefs;
int retval;
if (!GFXW_IS_VISUAL(visual)) {
GFXERROR("_gfxwop_visual_free() called on non-visual!Widget was: ");
widget->print(widget, 3);
return 1;
}
portrefs = visual->port_refs;
retval = _gfxwop_container_free(widget);
free(portrefs);
return 0;
}
static int
_gfxwop_visual_print(gfxw_widget_t *widget, int indentation) {
int i;
int comma = 0;
gfxw_visual_t *visual = (gfxw_visual_t *) widget;
if (!GFXW_IS_VISUAL(visual)) {
GFXERROR("_gfxwop_visual_free() called on non-visual!Widget was: ");
widget->print(widget, 3);
return 1;
}
_gfxw_print_widget(widget, indentation);
sciprintf("VISUAL; ports={");
for (i = 0; i < visual->port_refs_nr; i++)
if (visual->port_refs[i]) {
if (comma)
sciprintf(",");
else
comma = 1;
sciprintf("%d", i);
}
sciprintf("}\n");
return _w_gfxwop_container_print(widget, indentation);
}
static int
_gfxwop_visual_set_visual(gfxw_widget_t *self, gfxw_visual_t *visual) {
if (self != GFXW(visual)) {
GFXWARN("Attempt to set a visual's parent visual to something else!\n");
} else {
GFXWARN("Attempt to set a visual's parent visual!\n");
}
return 1;
}
void
_gfxw_set_ops_VISUAL(gfxw_container_t *visual) {
_gfxw_set_container_ops((gfxw_container_t *) visual,
_gfxwop_visual_draw,
_gfxwop_visual_free,
_gfxwop_container_tag,
_gfxwop_visual_print,
_gfxwop_basic_compare_to,
_gfxwop_basic_equals,
_gfxwop_basic_superarea_of,
_gfxwop_visual_set_visual,
_gfxwop_container_free_tagged,
_gfxwop_container_free_contents,
_gfxwop_container_add_dirty,
_gfxwop_container_add);
}
gfxw_visual_t *
gfxw_new_visual(gfx_state_t *state, int font) {
gfxw_visual_t *visual = (gfxw_visual_t *) _gfxw_new_container_widget(gfx_rect(0, 0, 320, 200), sizeof(gfxw_visual_t), GFXW_VISUAL);
visual->font_nr = font;
visual->gfx_state = state;
visual->port_refs = (struct _gfxw_port**)sci_calloc(sizeof(gfxw_port_t), visual->port_refs_nr = 16);
_gfxw_set_ops_VISUAL(GFXWC(visual));
return visual;
}
static int
_visual_find_free_ID(gfxw_visual_t *visual) {
int id = 0;
int newports = 16;
while (visual->port_refs[id] && id < visual->port_refs_nr)
id++;
if (id == visual->port_refs_nr) {/* Out of ports? */
visual->port_refs = (struct _gfxw_port**)sci_realloc(visual->port_refs, visual->port_refs_nr += newports);
memset(visual->port_refs + id, 0, newports * sizeof(gfxw_port_t *)); /* Clear new port refs */
}
return id;
}
static int
_gfxwop_add_dirty_rects(gfxw_container_t *dest, gfx_dirty_rect_t *src) {
DDIRTY(stderr, "Adding multiple dirty to #%d\n", dest->ID);
if (src) {
dest->dirty = gfxdr_add_dirty(dest->dirty, src->rect, GFXW_DIRTY_STRATEGY);
_gfxwop_add_dirty_rects(dest, src->next);
}
return 0;
}
/*-------------*/
/**** Ports ****/
/*-------------*/
static int
_gfxwop_port_draw(gfxw_widget_t *widget, Common::Point pos) {
gfxw_port_t *port = (gfxw_port_t *) widget;
DRAW_ASSERT(widget, GFXW_PORT);
if (port->decorations) {
DDIRTY(stderr, "Getting/applying deco dirty (multi)\n");
_gfxwop_add_dirty_rects(GFXWC(port->decorations), port->dirty);
if (port->decorations->draw(GFXW(port->decorations), gfxw_point_zero)) {
port->decorations->dirty = NULL;
return 1;
}
port->decorations->dirty = NULL;
}
_gfxwop_container_draw_contents(widget, port->contents);
recursively_free_dirty_rects(port->dirty);
port->dirty = NULL;
widget->flags &= ~GFXW_FLAG_DIRTY;
return 0;
}
static int
_gfxwop_port_free(gfxw_widget_t *widget) {
gfxw_port_t *port = (gfxw_port_t *) widget;
if (port->visual) {
gfxw_visual_t *visual = port->visual;
int ID = port->ID;
if (ID < 0 || ID >= visual->port_refs_nr) {
GFXWARN("Attempt to free port #%d; allowed: [0..%d]!\n", ID, visual->port_refs_nr);
return GFX_ERROR;
}
if (visual->port_refs[ID] != port) {
GFXWARN("While freeing port %d: Port is at %p, but port list indicates %p!\n",
ID, port, visual->port_refs[ID]);
} else visual->port_refs[ID] = NULL;
}
if (port->decorations)
port->decorations->widfree(GFXW(port->decorations));
return _gfxwop_container_free(widget);
}
static int
_gfxwop_port_print(gfxw_widget_t *widget, int indentation) {
gfxw_port_t *port = (gfxw_port_t *) widget;
_gfxw_print_widget(widget, indentation);
sciprintf("PORT");
sciprintf(" font=%d drawpos=(%d,%d)", port->font_nr, port->draw_pos.x, port->draw_pos.y);
if (port->gray_text)
sciprintf(" (gray)");
_w_gfxwop_container_print(GFXW(port), indentation);
return _w_gfxwop_container_print_contents("decorations", GFXW(port->decorations), indentation);
}
static int
_gfxwop_port_superarea_of(gfxw_widget_t *self, gfxw_widget_t *other) {
gfxw_port_t *port = (gfxw_port_t *) self;
if (!port->port_bg)
return _gfxwop_basic_superarea_of(self, other);
return port->port_bg->superarea_of(port->port_bg, other);
}
static int
_gfxwop_port_set_visual(gfxw_widget_t *widget, gfxw_visual_t *visual) {
gfxw_list_t *decorations = ((gfxw_port_t *) widget)->decorations;
widget->visual = visual;
if (decorations)
if (decorations->set_visual(GFXW(decorations), visual)) {
GFXWARN("Setting the visual for decorations failed for port ");
widget->print(widget, 1);
return 1;
}
return _gfxwop_container_set_visual(widget, visual);
}
static int
_gfxwop_port_add_dirty(gfxw_container_t *widget, rect_t dirty, int propagate) {
gfxw_port_t *self = (gfxw_port_t *) widget;
self->flags |= GFXW_FLAG_DIRTY;
_gfxwop_container_add_dirty(widget, dirty, propagate);
DDIRTY(stderr, "Added dirty to ID %d\n", widget->ID);
DDIRTY(stderr, "dirty= (%d,%d,%d,%d) bounds (%d,%d,%d,%d)\n", dirty.x, dirty.x, dirty.xl, dirty.yl,
widget->bounds.x, widget->bounds.y, widget->bounds.xl, widget->bounds.yl);
#if 0
/* FIXME: This is a worthwhile optimization */
if (self->port_bg) {
gfxw_widget_t foo;
foo.bounds = dirty; /* Yeah, sub-elegant, I know */
foo.bounds.x -= self->zone.x;
foo.bounds.y -= self->zone.y;
if (self->port_bg->superarea_of(self->port_bg, &foo)) {
gfxw_container_t *parent = self->parent;
while (parent) {
fprintf(stderr, "Dirtifying parent id %d\n", parent->ID);
parent->flags |= GFXW_FLAG_DIRTY;
parent = parent->parent;
}
return 0;
}
} /* else propagate to the parent, since we're not 'catching' the dirty rect */
#endif
if (propagate)
if (self->parent) {
DDIRTY(stderr, "PROPAGATE\n");
return self->parent->add_dirty_abs(self->parent, dirty, 1);
}
return 0;
}
static int
_gfxwop_port_add(gfxw_container_t *container, gfxw_widget_t *widget)
/* O(n) */
{
return _gfxwop_ordered_add(container, widget, 1);
}
void
_gfxw_set_ops_PORT(gfxw_container_t *widget) {
_gfxw_set_container_ops((gfxw_container_t *) widget,
_gfxwop_port_draw,
_gfxwop_port_free,
_gfxwop_container_tag,
_gfxwop_port_print,
_gfxwop_basic_compare_to,
_gfxwop_basic_equals,
_gfxwop_port_superarea_of,
_gfxwop_port_set_visual,
_gfxwop_container_free_tagged,
_gfxwop_container_free_contents,
_gfxwop_port_add_dirty,
_gfxwop_port_add);
}
gfxw_port_t *
gfxw_new_port(gfxw_visual_t *visual, gfxw_port_t *predecessor, rect_t area, gfx_color_t fgcolor, gfx_color_t bgcolor) {
gfxw_port_t *widget = (gfxw_port_t *)
_gfxw_new_container_widget(area, sizeof(gfxw_port_t), GFXW_PORT);
VERIFY_WIDGET(visual);
widget->port_bg = NULL;
widget->parent = NULL;
widget->decorations = NULL;
widget->title_text = NULL;
widget->draw_pos = Common::Point(0, 0);
widget->gray_text = 0;
widget->color = fgcolor;
widget->bgcolor = bgcolor;
widget->font_nr = visual->font_nr;
widget->ID = _visual_find_free_ID(visual);
widget->chrono_port = 0;
visual->port_refs[widget->ID] = widget;
_gfxw_set_ops_PORT(GFXWC(widget));
return widget;
}
void gfxw_port_auto_restore_background(gfxw_visual_t *visual, gfxw_port_t *window, rect_t auto_rect) {
window->port_flags |= WINDOW_FLAG_AUTO_RESTORE;
window->restore_snap = gfxw_make_snapshot(visual, auto_rect);
}
gfxw_port_t *
gfxw_remove_port(gfxw_visual_t *visual, gfxw_port_t *port) {
gfxw_port_t *parent;
VERIFY_WIDGET(visual);
VERIFY_WIDGET(port);
if (!visual->contents) {
GFXWARN("Attempt to remove port from empty visual\n");
return NULL;
}
parent = (gfxw_port_t *) port->parent;
if (port->port_flags & WINDOW_FLAG_AUTO_RESTORE)
gfxw_restore_snapshot(visual, port->restore_snap);
if (port->widfree(GFXW(port)))
return parent;
while (parent && !GFXW_IS_PORT(parent))
parent = (gfxw_port_t *) parent->parent; /* Ascend through ancestors */
return parent;
}
gfxw_port_t *
gfxw_find_port(gfxw_visual_t *visual, int ID) {
if (ID < 0 || ID >= visual->port_refs_nr)
return NULL;
return visual->port_refs[ID];
}
gfxw_port_t *
gfxw_find_default_port(gfxw_visual_t *visual) {
int id = visual->port_refs_nr;
while (id--) {
gfxw_port_t *port = visual->port_refs[id];
if (port)
return port;
}
return NULL;
}
/*** - other functions - ***/
gfxw_widget_t *
gfxw_set_id(gfxw_widget_t *widget, int ID, int subID) {
if (widget) {
widget->ID = ID;
widget->subID = subID;
}
return widget;
}
gfxw_dyn_view_t *
gfxw_dyn_view_set_params(gfxw_dyn_view_t *widget, int under_bits, void *under_bitsp,
int signal, void *signalp) {
if (!widget)
return NULL;
widget->under_bits = under_bits;
widget->under_bitsp = under_bitsp;
widget->signal = signal;
widget->signalp = signalp;
return widget;
}
gfxw_widget_t *
gfxw_remove_id(gfxw_container_t *container, int ID, int subID) {
gfxw_widget_t **wp = &(container->contents);
while (*wp) {
if ((*wp)->ID == ID
&& (subID == GFXW_NO_ID
|| (*wp)->subID == subID)) {
gfxw_widget_t *widget = *wp;
*wp = (*wp)->next;
widget->next = NULL;
widget->parent = NULL;
widget->visual = NULL;
return widget;
}
wp = &((*wp)->next);
}
return NULL;
}
gfxw_widget_t *
gfxw_hide_widget(gfxw_widget_t *widget) {
if (widget->flags & GFXW_FLAG_VISIBLE) {
widget->flags &= ~GFXW_FLAG_VISIBLE;
if (widget->parent)
widget->parent->add_dirty_rel(widget->parent, widget->bounds, 1);
}
return widget;
}
gfxw_widget_t *
gfxw_show_widget(gfxw_widget_t *widget) {
if (!(widget->flags & GFXW_FLAG_VISIBLE)) {
widget->flags |= GFXW_FLAG_VISIBLE;
if (widget->parent)
widget->parent->add_dirty_rel(widget->parent, widget->bounds, 1);
}
return widget;
}
gfxw_snapshot_t *
gfxw_make_snapshot(gfxw_visual_t *visual, rect_t area) {
gfxw_snapshot_t *retval = (gfxw_snapshot_t*)sci_malloc(sizeof(gfxw_snapshot_t));
retval->serial = widget_serial_number_counter++;
retval->area = area;
/* Work around subset semantics in gfx_rect_subset.
This fixes the help icon in LSL5. */
if (retval->area.xl == 320) retval->area.xl = 321;
return retval;
}
int
gfxw_widget_matches_snapshot(gfxw_snapshot_t *snapshot, gfxw_widget_t *widget) {
int free_below = (snapshot->serial < widget_serial_number_counter) ? 0 : widget_serial_number_counter;
int free_above_eq = snapshot->serial;
rect_t bounds = widget->bounds;
if (!GFXW_IS_CONTAINER(widget) && widget->parent) {
bounds.x += widget->parent->bounds.x;
bounds.y += widget->parent->bounds.y;
}
return ((widget->serial >= free_above_eq
|| widget->serial < free_below)
&& gfx_rect_subset(bounds, snapshot->area));
}
#define MAGIC_FREE_NUMBER -42
void
_gfxw_free_contents_appropriately(gfxw_container_t *container, gfxw_snapshot_t *snapshot, int priority) {
gfxw_widget_t *widget = container->contents;
while (widget) {
gfxw_widget_t *next = widget->next;
if (gfxw_widget_matches_snapshot(snapshot, widget) && !(widget->flags & GFXW_FLAG_IMMUNE_TO_SNAPSHOTS)
&& (priority == MAGIC_FREE_NUMBER || priority <= widget->widget_priority || widget->widget_priority == -1)) {
widget->widfree(widget);
} else {
if (GFXW_IS_CONTAINER(widget))
_gfxw_free_contents_appropriately(GFXWC(widget), snapshot, priority);
}
widget = next;
}
}
gfxw_snapshot_t *
gfxw_restore_snapshot(gfxw_visual_t *visual, gfxw_snapshot_t *snapshot) {
_gfxw_free_contents_appropriately(GFXWC(visual), snapshot, MAGIC_FREE_NUMBER);
return snapshot;
}
void
gfxw_annihilate(gfxw_widget_t *widget) {
gfxw_visual_t *visual = widget->visual;
int widget_priority = 0;
int free_overdrawn = 0;
gfxw_snapshot_t snapshot;
if (!GFXW_IS_CONTAINER(widget) && widget->parent && visual && (widget->flags & GFXW_FLAG_VISIBLE)) {
snapshot.serial = 0;
snapshot.area = widget->bounds;
snapshot.area.x += widget->parent->zone.x;
snapshot.area.y += widget->parent->zone.y;
free_overdrawn = 1;
widget_priority = widget->widget_priority;
}
widget->widfree(GFXW(widget));
if (free_overdrawn)
_gfxw_free_contents_appropriately(GFXWC(visual), &snapshot, widget_priority);
}
gfxw_dyn_view_t *
gfxw_picviewize_dynview(gfxw_dyn_view_t *dynview) {
dynview->type = GFXW_PIC_VIEW;
dynview->flags |= GFXW_FLAG_DIRTY;
_gfxw_set_ops_PICVIEW(GFXW(dynview));
if (dynview->parent)
_gfxw_dirtify_container(dynview->parent, GFXW(dynview));
return dynview;
}
/* Chrono-Ports (tm) */
gfxw_port_t *
gfxw_get_chrono_port(gfxw_visual_t *visual, gfxw_list_t **temp_widgets_list, int flags) {
gfxw_port_t *result = NULL;
gfx_color_t transparent = {{0, 0, 0, 0}, 0, 0, 0, 0};
int id = 0;
if (!(flags & GFXW_CHRONO_NON_TOPMOST)) {
result = gfxw_find_default_port(visual);
} else {
id = visual->port_refs_nr;
while (id >= 0 && (!visual->port_refs[id] ||
!visual->port_refs[id]->chrono_port))
id--;
if (id >= 0)
result = visual->port_refs[id];
}
if (!result || !result->chrono_port) {
if (flags & GFXW_CHRONO_NO_CREATE) return NULL;
result = gfxw_new_port(visual, NULL, gfx_rect(0, 0, 320, 200), transparent, transparent);
*temp_widgets_list = gfxw_new_list(gfx_rect(0, 0, 320, 200), 1);
result->add(GFXWC(result), GFXW(*temp_widgets_list));
result->chrono_port = 1;
if (temp_widgets_list)
*temp_widgets_list = GFXWC(result->contents);
return result;
};
if (temp_widgets_list)
*temp_widgets_list = GFXWC(result->contents);
return result;
}
static int
gfxw_check_chrono_overlaps(gfxw_port_t *chrono, gfxw_widget_t *widget) {
gfxw_widget_t *seeker = GFXWC(chrono->contents)->contents;
while (seeker) {
if (gfx_rect_equals(seeker->bounds, widget->bounds)) {
gfxw_annihilate(GFXW(seeker));
return 1;
}
seeker = seeker->next;
}
return 0;
}
void
gfxw_add_to_chrono(gfxw_visual_t *visual, gfxw_widget_t *widget) {
gfxw_list_t *tw;
gfxw_port_t *chrono =
gfxw_get_chrono_port(visual, &tw, 0);
gfxw_check_chrono_overlaps(chrono, widget);
chrono->add(GFXWC(chrono), widget);
}
static gfxw_widget_t *
gfxw_widget_intersects_chrono(gfxw_list_t *tw, gfxw_widget_t *widget) {
gfxw_widget_t *seeker;
assert(tw->type == GFXW_SORTED_LIST);
seeker = tw->contents;
while (seeker) {
Common::Point origin;
rect_t bounds = widget->bounds;
bounds = widget->bounds;
origin.x = seeker->parent->zone.x;
origin.y = seeker->parent->zone.y;
gfx_rect_translate(bounds, origin);
if (gfx_rects_overlap(bounds, seeker->bounds))
return seeker;
seeker = seeker->next;
}
return 0;
}
void
gfxw_widget_reparent_chrono(gfxw_visual_t *visual, gfxw_widget_t *view, gfxw_list_t *target) {
gfxw_list_t *tw;
gfxw_port_t *chrono;
gfxw_widget_t *intersector;
chrono = gfxw_get_chrono_port(visual, &tw, GFXW_CHRONO_NO_CREATE);
if (chrono == NULL) return;
intersector = gfxw_widget_intersects_chrono(tw, view);
if (intersector) {
Common::Point origin = Common::Point(intersector->parent->zone.x,
intersector->parent->zone.y);
gfxw_remove_widget_from_container(GFXWC(chrono), GFXW(tw));
gfxw_remove_widget_from_container(GFXWC(chrono->parent), GFXW(chrono));
gfxw_annihilate(GFXW(chrono));
gfx_rect_translate(tw->zone, origin);
target->add(GFXWC(target), GFXW(tw));
}
}
void
gfxw_widget_kill_chrono(gfxw_visual_t *visual, int window) {
int i;
for (i = window; i < visual->port_refs_nr ; i++) {
if (visual->port_refs[i] && visual->port_refs[i]->chrono_port)
gfxw_annihilate(GFXW(visual->port_refs[i]));
}
}