netsurf/frontends/atari/treeview.c
2024-05-26 19:59:17 +01:00

845 lines
21 KiB
C

/*
* Copyright 2013 Ole Loots <ole@monochrom.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 "assert.h"
#include "utils/log.h"
#include "utils/messages.h"
#include "netsurf/inttypes.h"
#include "netsurf/core_window.h"
#include "netsurf/plotters.h"
#include "atari/gui.h"
#include "atari/plot/plot.h"
#include "atari/misc.h"
#include "atari/gemtk/gemtk.h"
#include "atari/treeview.h"
#include "atari/res/netsurf.rsh"
struct atari_treeview_window {
struct atari_treeview_window * prev_open;
struct atari_treeview_window * next_open;
GUIWIN * window;
bool disposing;
bool redraw;
bool is_open;
GRECT rdw_area;
POINT extent;
POINT click;
POINT startdrag;
struct atari_treeview_callbacks *io;
void * user_data;
};
static struct atari_treeview_window * treeviews_open;
/**
* Schedule a redraw of the treeview content
*
*/
static void
atari_treeview_redraw_grect_request(struct core_window *cw, GRECT *area)
{
struct atari_treeview_window *tv = (struct atari_treeview_window *)cw;
if (cw != NULL) {
if( tv->redraw == false ){
tv->redraw = true;
tv->rdw_area.g_x = area->g_x;
tv->rdw_area.g_y = area->g_y;
tv->rdw_area.g_w = area->g_w;
tv->rdw_area.g_h = area->g_h;
} else {
/* merge the redraw area to the new area.: */
int newx1 = area->g_x+area->g_w;
int newy1 = area->g_y+area->g_h;
int oldx1 = tv->rdw_area.g_x + tv->rdw_area.g_w;
int oldy1 = tv->rdw_area.g_y + tv->rdw_area.g_h;
tv->rdw_area.g_x = MIN(tv->rdw_area.g_x, area->g_x);
tv->rdw_area.g_y = MIN(tv->rdw_area.g_y, area->g_y);
if ( oldx1 > newx1 ) {
tv->rdw_area.g_w = oldx1 - tv->rdw_area.g_x;
} else {
tv->rdw_area.g_w = newx1 - tv->rdw_area.g_x;
}
if ( oldy1 > newy1 ) {
tv->rdw_area.g_h = oldy1 - tv->rdw_area.g_y;
} else {
tv->rdw_area.g_h = newy1 - tv->rdw_area.g_y;
}
}
//dbg_grect("atari_treeview_request_redraw_grect", &tv->rdw_area);
}
}
#ifdef ATARI_TREEVIEW_DUMP
static void
atari_treeview_dump_info(struct atari_treeview_window *tv, char * title)
{
printf("Treeview Dump (%s)\n", title);
printf("=================================\n");
gemtk_wm_dump_window_info(atari_treeview_get_gemtk_window((struct core_window *)tv));
GEMTK_DBG_GRECT("Redraw Area: \n", &tv->rdw_area)
dbg_grect("Redraw Area2: \n", &tv->rdw_area);
printf("Extent: x: %d, y: %d\n", tv->extent.x, tv->extent.y);
}
#endif
static bool atari_treeview_is_iconified(struct core_window *cw)
{
struct atari_treeview_window *tv = (struct atari_treeview_window *)cw;
return((gemtk_wm_get_state(tv->window)&GEMTK_WM_STATUS_ICONIFIED) != 0);
}
static void atari_treeview_redraw_icon(struct core_window *cw, GRECT *clip)
{
struct atari_treeview_window *tv = (struct atari_treeview_window *)cw;
GRECT visible, work;
OBJECT * tree = gemtk_obj_get_tree(ICONIFY);
short aesh = gemtk_wm_get_handle(tv->window);
gemtk_wm_get_grect(tv->window, GEMTK_WM_AREA_WORK, &work);
tree->ob_x = work.g_x;
tree->ob_y = work.g_y;
tree->ob_width = work.g_w;
tree->ob_height = work.g_h;
wind_get_grect(aesh, WF_FIRSTXYWH, &visible);
while (visible.g_h > 0 && visible.g_w > 0) {
if (rc_intersect(&work, &visible)) {
objc_draw(tree, 0, 8, visible.g_x, visible.g_y, visible.g_w,
visible.g_h);
} else {
//dbg_grect("redraw vis area outside", &visible);
}
wind_get_grect(aesh, WF_NEXTXYWH, &visible);
}
}
static void __CDECL
on_redraw_event(struct core_window *cw, EVMULT_OUT *ev_out, short msg[8])
{
GRECT work, clip;
struct atari_treeview_window *tv = (struct atari_treeview_window *)cw;
if (tv == NULL)
return;
gemtk_wm_get_grect(tv->window, GEMTK_WM_AREA_CONTENT, &work);
//dbg_grect("treeview work: ", &work);
atari_treeview_get_grect(cw, TREEVIEW_AREA_CONTENT, &work);
//dbg_grect("treeview work: ", &work);
gemtk_wm_get_scroll_info(tv->window);
clip = work;
/* check if the redraw area intersects with the content area: */
if ( !rc_intersect( (GRECT*)&msg[4], &clip)) {
return;
}
if (atari_treeview_is_iconified(cw) == true) {
atari_treeview_redraw_icon(cw, &clip);
return;
}
/* make redraw coords relative to content viewport */
clip.g_x -= work.g_x;
clip.g_y -= work.g_y;
/* normalize the redraw coords: */
if( clip.g_x < 0 ) {
clip.g_w = work.g_w + clip.g_x;
clip.g_x = 0;
}
if( clip.g_y < 0 ) {
clip.g_h = work.g_h + clip.g_y;
clip.g_y = 0;
}
/* Merge redraw coords: */
if( clip.g_h > 0 && clip.g_w > 0 ) {
GRECT rdrw_area;
rdrw_area.g_x = clip.g_x;
rdrw_area.g_y = clip.g_y;
rdrw_area.g_w = clip.g_w;
rdrw_area.g_h = clip.g_h;
//dbg_grect("treeview on_redraw_event ", &rdrw_area);
atari_treeview_redraw_grect_request(cw, &rdrw_area);
}
}
static void __CDECL
on_mbutton_event(struct core_window *cw, EVMULT_OUT *ev_out, short msg[8])
{
struct atari_treeview_window *tv = (struct atari_treeview_window *)cw;
struct gemtk_wm_scroll_info_s *slid;
GRECT work;
short mx, my;
short cur_rel_x, cur_rel_y, dummy, mbut;
assert(tv);
gemtk_wm_get_grect(tv->window, GEMTK_WM_AREA_CONTENT, &work);
slid = gemtk_wm_get_scroll_info(tv->window);
mx = ev_out->emo_mouse.p_x;
my = ev_out->emo_mouse.p_y;
/* mouse click relative origin: */
short origin_rel_x = (mx-work.g_x) + (slid->x_pos*slid->x_unit_px);
short origin_rel_y = (my-work.g_y) + (slid->y_pos*slid->y_unit_px);
/* Only pass on events in the content area: */
if ((origin_rel_x >= 0) &&
(origin_rel_y >= 0) &&
(mx < work.g_x + work.g_w) &&
(my < work.g_y + work.g_h)) {
if (ev_out->emo_mclicks == 2) {
tv->io->mouse_action(cw,
BROWSER_MOUSE_CLICK_1 |
BROWSER_MOUSE_DOUBLE_CLICK,
origin_rel_x,
origin_rel_y);
return;
}
graf_mkstate(&cur_rel_x, &cur_rel_y, &mbut, &dummy);
/* check for click or hold: */
if ((mbut & 1) == 0 ) {
int bms;
bms = BROWSER_MOUSE_CLICK_1 | BROWSER_MOUSE_PRESS_1;
if(ev_out->emo_mclicks == 2 ) {
bms = BROWSER_MOUSE_DOUBLE_CLICK;
}
tv->io->mouse_action(cw, bms, origin_rel_x, origin_rel_y);
} else {
/* button still pressed */
short prev_x = origin_rel_x;
short prev_y = origin_rel_y;
cur_rel_x = origin_rel_x;
cur_rel_y = origin_rel_y;
gem_set_cursor(&gem_cursors.hand);
tv->startdrag.x = origin_rel_x;
tv->startdrag.y = origin_rel_y;
/* First, report mouse press, to trigger entry selection */
tv->io->mouse_action(cw,
BROWSER_MOUSE_CLICK_1 |
BROWSER_MOUSE_PRESS_1,
cur_rel_x,
cur_rel_y);
atari_treeview_redraw(cw);
tv->io->mouse_action(cw,
BROWSER_MOUSE_DRAG_1 |
BROWSER_MOUSE_DRAG_ON,
cur_rel_x,
cur_rel_y);
do {
if (abs(prev_x-cur_rel_x) > 5 ||
abs(prev_y-cur_rel_y) > 5) {
tv->io->mouse_action(cw,
BROWSER_MOUSE_HOLDING_1 |
BROWSER_MOUSE_DRAG_ON,
cur_rel_x,
cur_rel_y);
prev_x = cur_rel_x;
prev_y = cur_rel_y;
}
if (tv->redraw) {
// TODO: maybe GUI poll would fit better here?
// ... is gui_poll re-entrance save?
atari_treeview_redraw(cw);
}
/* sample mouse button state: */
graf_mkstate(&cur_rel_x,
&cur_rel_y,
&mbut,
&dummy);
cur_rel_x = (cur_rel_x-work.g_x) +
(slid->x_pos*slid->x_unit_px);
cur_rel_y = (cur_rel_y-work.g_y) +
(slid->y_pos*slid->y_unit_px);
} while (mbut & 1);
/* End drag: */
tv->io->mouse_action(cw,
BROWSER_MOUSE_HOVER,
cur_rel_x,
cur_rel_y);
gem_set_cursor(&gem_cursors.arrow);
}
}
}
static void __CDECL
on_keybd_event(struct core_window *cw, EVMULT_OUT *ev_out, short msg[8])
{
long kstate = 0;
long kcode = 0;
long ucs4;
long ik;
unsigned short nkc = 0;
unsigned char ascii;
struct atari_treeview_window *tv = (struct atari_treeview_window *)cw;
kstate = ev_out->emo_kmeta;
kcode = ev_out->emo_kreturn;
nkc= gem_to_norm( (short)kstate, (short)kcode );
ascii = (nkc & 0xFF);
ik = nkc_to_input_key(nkc, &ucs4);
if (ik == 0) {
if (ascii >= 9) {
tv->io->keypress(cw, ucs4);
}
} else {
tv->io->keypress(cw, ik);
}
}
/**
* GEMTK (netsurf's GEM toolkit) event sink
*
*/
static short handle_event(GUIWIN *win, EVMULT_OUT *ev_out, short msg[8])
{
short retval = 0;
struct atari_treeview_window *tv = (struct atari_treeview_window *)
gemtk_wm_get_user_data(win);
struct core_window *cw = (struct core_window *)tv;
if( (ev_out->emo_events & MU_MESAG) != 0 ) {
// handle message
switch (msg[0]) {
case WM_REDRAW:
on_redraw_event(cw, ev_out, msg);
break;
default:
break;
}
}
if ((ev_out->emo_events & MU_KEYBD) != 0 ) {
on_keybd_event(cw, ev_out, msg);
}
if ((ev_out->emo_events & MU_BUTTON) != 0 ) {
NSLOG(netsurf, INFO, "Treeview click at: %d,%d\n",
ev_out->emo_mouse.p_x, ev_out->emo_mouse.p_y);
on_mbutton_event(cw, ev_out, msg);
}
if (tv != NULL && tv->io->gemtk_user_func != NULL){
tv->io->gemtk_user_func(win, ev_out, msg);
}
// TODO: evaluate return values of event handler functions and pass them on:
return(retval);
}
/**
* callback from core to request an invalidation of a window area.
*
* The specified area of the window should now be considered
* out of date. If the area is NULL the entire window must be
* invalidated.
*
* \param[in] cw The core window to invalidate.
* \param[in] r area to redraw or NULL for the entire window area.
* \return NSERROR_OK on success or appropriate error code.
*/
static nserror
atari_treeview_invalidate_area(struct core_window *cw,
const struct rect *r)
{
GRECT area;
struct gemtk_wm_scroll_info_s * slid;
struct atari_treeview_window * tv = (struct atari_treeview_window *)cw;
assert(tv);
if (r != NULL) {
RECT_TO_GRECT(r, &area);
slid = gemtk_wm_get_scroll_info(tv->window);
//dbg_rect("redraw rect request", r);
// treeview redraw is always full window width:
area.g_x = 0;
area.g_w = 8000;
// but vertical redraw region is clipped:
area.g_y = r->y0 - (slid->y_pos*slid->y_unit_px);
area.g_h = r->y1 - r->y0;
} else {
atari_treeview_get_grect(cw, TREEVIEW_AREA_CONTENT, &area);
}
atari_treeview_redraw_grect_request(cw, &area);
return NSERROR_OK;
}
/**
* Update the limits of the window
*
* \param cw the core window object
* \param width the width in px, or negative if don't care
* \param height the height in px, or negative if don't care
*/
static nserror
atari_treeview_update_size(struct core_window *cw, int width, int height)
{
GRECT area;
struct gemtk_wm_scroll_info_s *slid;
struct atari_treeview_window *tv = (struct atari_treeview_window *)cw;
if (tv != NULL) {
if (tv->disposing)
return NSERROR_INVALID;
/* Get acces to the gemtk window slider settings: */
slid = gemtk_wm_get_scroll_info(tv->window);
/* recalculate and refresh sliders: */
atari_treeview_get_grect(cw, TREEVIEW_AREA_CONTENT, &area);
if (width > -1) {
slid->x_units = (width/slid->x_unit_px);
} else {
slid->x_units = 1;
}
if (height > -1) {
slid->y_units = (height/slid->y_unit_px);
} else {
slid->y_units = 1;
}
tv->extent.x = width;
tv->extent.y = height;
/* printf("units content: %d, units viewport: %d\n",
(height/slid->y_unit_px),
(area.g_h/slid->y_unit_px));
*/
gemtk_wm_update_slider(tv->window, GEMTK_WM_VH_SLIDER);
}
return NSERROR_OK;
}
/**
* Scroll the window to make area visible
*
* \param cw the core window object
* \param r rectangle to make visible
*/
static nserror
atari_treeview_set_scroll(struct core_window *cw, int x, int y)
{
/* TODO */
return NSERROR_OK;
}
static nserror
atari_treeview_get_scroll(const struct core_window *cw, int *x, int *y)
{
/* TODO */
return NSERROR_NOT_IMPLEMENTED;
}
/**
* Get window viewport dimensions
*
* \param cw the core window object
* \param width to be set to viewport width in px, if non NULL
* \param height to be set to viewport height in px, if non NULL
*/
static nserror
atari_treeview_get_window_dimensions(const struct core_window *cw,
int *width,
int *height)
{
if ((cw != NULL) &&
(width != NULL || height != NULL)) {
GRECT work;
atari_treeview_get_grect(cw, TREEVIEW_AREA_CONTENT, &work);
*width = work.g_w;
*height = work.g_h;
}
return NSERROR_OK;
}
/**
* Inform corewindow owner of drag status
*
* \param cw the core window object
* \param ds the current drag status
*/
static nserror
atari_treeview_drag_status(struct core_window *cw, core_window_drag_status ds)
{
return NSERROR_NOT_IMPLEMENTED;
}
/**
* Declare Core Window Callbacks:
*/
static struct core_window_table cw_t = {
.invalidate = atari_treeview_invalidate_area,
.set_extent = atari_treeview_update_size,
.set_scroll = atari_treeview_set_scroll,
.get_scroll = atari_treeview_get_scroll,
.get_dimensions = atari_treeview_get_window_dimensions,
.drag_status = atari_treeview_drag_status
};
struct core_window_table *atari_core_window_table = &cw_t;
/* exported interface documented in atari/treeview.h */
struct core_window *
atari_treeview_create(GUIWIN *win, struct atari_treeview_callbacks * callbacks,
void * user_data, uint32_t flags)
{
/* allocate the core_window struct: */
struct atari_treeview_window * tv;
struct gemtk_wm_scroll_info_s *slid;
tv = calloc(1, sizeof(struct atari_treeview_window));
if (tv == NULL) {
NSLOG(netsurf, INFO, "calloc failed");
atari_warn_user(messages_get_errorcode(NSERROR_NOMEM), 0);
return NULL;
}
/* Store the window ref inside the new treeview: */
tv->window = win;
tv->io = callbacks;
tv->user_data = user_data;
// Setup gemtk event handler function:
gemtk_wm_set_event_handler(win, handle_event);
// bind window user data to treeview ref:
gemtk_wm_set_user_data(win, (void*)tv);
// Get acces to the gemtk scroll info struct:
slid = gemtk_wm_get_scroll_info(tv->window);
// Setup line and column height/width of the window,
// each scroll takes the configured steps:
slid->y_unit_px = 16;
slid->x_unit_px = 16;
assert(tv->io);
assert(tv->io->init_phase2);
/* Now that the window is configured for treeview content, */
/* call init_phase2 which must create the treeview */
/* descriptor, and at least setup the the default */
/* event handlers of the treeview: */
/* It would be more simple to not pass around the callbacks */
/* but the treeview constructor requires them for initialization... */
nserror err = tv->io->init_phase2((struct core_window *)tv);
if (err != NSERROR_OK) {
free(tv);
tv = NULL;
}
return((struct core_window *)tv);
}
/* exported interface documented in atari/treeview.h */
void
atari_treeview_get_grect(struct core_window *cw,
enum treeview_area_e mode,
GRECT *dest)
{
struct atari_treeview_window *tv = (struct atari_treeview_window *)cw;
if (mode == TREEVIEW_AREA_CONTENT) {
gemtk_wm_get_grect(tv->window, GEMTK_WM_AREA_CONTENT, dest);
}
else if (mode == TREEVIEW_AREA_TOOLBAR) {
gemtk_wm_get_grect(tv->window, GEMTK_WM_AREA_TOOLBAR, dest);
}
}
/* exported interface documented in atari/treeview.h */
GUIWIN * atari_treeview_get_gemtk_window(struct core_window *cw)
{
struct atari_treeview_window *tv = (struct atari_treeview_window *)cw;
return(tv->window);
}
/* exported interface documented in atari/treeview.h */
void atari_treeview_redraw(struct core_window *cw)
{
struct atari_treeview_window *tv = (struct atari_treeview_window *)cw;
short pxy[4];
if (tv != NULL && tv->is_open) {
if( tv->redraw && ((plot_get_flags() & PLOT_FLAG_OFFSCREEN) == 0) ) {
short todo[4];
GRECT work;
short handle = gemtk_wm_get_handle(tv->window);
struct gemtk_wm_scroll_info_s *slid;
gemtk_wm_get_grect(tv->window, GEMTK_WM_AREA_CONTENT, &work);
slid = gemtk_wm_get_scroll_info(tv->window);
// // Debug code: this 3 lines help to inspect the redraw
// // areas...
// pxy[0] = work.g_x;
// pxy[1] = work.g_y;
// pxy[2] = pxy[0] + work.g_w-1;
// pxy[3] = pxy[1] + work.g_h-1;
//
// vsf_color(plot_get_vdi_handle(), 0);
// v_bar(plot_get_vdi_handle(), (short*)&pxy);
// evnt_timer(500);
struct redraw_context ctx = {
.interactive = true,
.background_images = true,
.plot = &atari_plotters
};
plot_set_dimensions(&ctx,
work.g_x,
work.g_y,
work.g_w,
work.g_h);
if (plot_lock() == false)
return;
if( wind_get(handle, WF_FIRSTXYWH,
&todo[0], &todo[1], &todo[2], &todo[3] )!=0 ) {
while (todo[2] && todo[3]) {
if(!rc_intersect(&work, (GRECT*)&todo)){
if (wind_get(handle, WF_NEXTXYWH,
&todo[0], &todo[1], &todo[2], &todo[3])==0) {
break;
}
continue;
}
pxy[0] = todo[0];
pxy[1] = todo[1];
pxy[2] = todo[0] + todo[2]-1;
pxy[3] = todo[1] + todo[3]-1;
vs_clip(plot_get_vdi_handle(), 1, (short*)&pxy);
// Debug code: this 3 lines help to inspect the redraw
// areas...
// vsf_color(plot_get_vdi_handle(), 3);
// v_bar(plot_get_vdi_handle(), (short*)&pxy);
// evnt_timer(500);
/* convert screen to treeview coords: */
todo[0] = todo[0] - work.g_x ;//+ slid->x_pos*slid->x_unit_px;
todo[1] = todo[1] - work.g_y ;//+ slid->y_pos*slid->y_unit_px;
if( todo[0] < 0 ){
todo[2] = todo[2] + todo[0];
todo[0] = 0;
}
if( todo[1] < 0 ){
todo[3] = todo[3] + todo[1];
todo[1] = 0;
}
if (rc_intersect((GRECT *)&tv->rdw_area,(GRECT *)&todo)) {
struct rect clip;
clip.x0 = todo[0]+(slid->x_pos*slid->x_unit_px);
clip.y0 = todo[1]+(slid->y_pos*slid->y_unit_px);
clip.x1 = clip.x0 + todo[2]+(slid->x_pos*slid->x_unit_px);
clip.y1 = clip.y0 + todo[3]+(slid->y_pos*slid->y_unit_px);
tv->io->draw(cw, -(slid->x_pos*slid->x_unit_px),
-(slid->y_pos*slid->y_unit_px),
&clip, &ctx);
}
vs_clip(plot_get_vdi_handle(), 0, (short*)&pxy);
if (wind_get(handle, WF_NEXTXYWH,
&todo[0], &todo[1], &todo[2], &todo[3])==0) {
break;
}
}
} else {
plot_unlock();
return;
}
plot_unlock();
tv->redraw = false;
tv->rdw_area.g_x = 65000;
tv->rdw_area.g_y = 65000;
tv->rdw_area.g_w = -1;
tv->rdw_area.g_h = -1;
} else {
/* just copy stuff from the offscreen buffer */
}
}
}
/* exported interface documented in atari/treeview.h */
void atari_treeview_delete(struct core_window * cw)
{
struct atari_treeview_window *tv = (struct atari_treeview_window*)cw;
assert(tv);
assert(tv->io->finish);
tv->io->finish(cw);
free(tv);
}
/* exported interface documented in atari/treeview.h */
void atari_treeview_open(struct core_window *cw, GRECT *pos)
{
struct atari_treeview_window *tv = (struct atari_treeview_window*)cw;
if (tv->window != NULL && tv->is_open == false) {
tv->is_open = true;
wind_open_grect(gemtk_wm_get_handle(tv->window), pos);
gemtk_wm_link(tv->window);
if (treeviews_open == NULL) {
treeviews_open = tv;
treeviews_open->next_open = NULL;
treeviews_open->prev_open = NULL;
} else {
struct atari_treeview_window * tmp;
tmp = treeviews_open;
while(tmp->next_open != NULL){
tmp = tmp->next_open;
}
tmp->next_open = tv;
tv->prev_open = tmp;
tv->next_open = NULL;
}
}
}
/* exported interface documented in atari/treeview.h */
bool atari_treeview_is_open(struct core_window *cw)
{
struct atari_treeview_window *tv = (struct atari_treeview_window*)cw;
return(tv->is_open);
}
/* exported interface documented in atari/treeview.h */
void atari_treeview_set_user_data(struct core_window *cw, void *user_data_ptr)
{
struct atari_treeview_window *tv = (struct atari_treeview_window*)cw;
tv->user_data = user_data_ptr;
}
/* exported interface documented in atari/treeview.h */
void * atari_treeview_get_user_data(struct core_window * cw)
{
struct atari_treeview_window *tv = (struct atari_treeview_window*)cw;
return(tv->user_data);
}
/* exported interface documented in atari/treeview.h */
void atari_treeview_close(struct core_window *cw)
{
struct atari_treeview_window *tv = (struct atari_treeview_window*)cw;
if (tv->window != NULL) {
tv->is_open = false;
wind_close(gemtk_wm_get_handle(tv->window));
gemtk_wm_unlink(tv->window);
/* unlink the window: */
if (tv->prev_open != NULL) {
tv->prev_open->next_open = tv->next_open;
} else {
treeviews_open = tv->next_open;
}
if (tv->next_open != NULL) {
tv->next_open->prev_open = tv->prev_open;
}
}
}
/* exported interface documented in atari/treeview.h */
void atari_treeview_flush_redraws(void)
{
struct atari_treeview_window *tmp;
tmp = treeviews_open;
while (tmp != NULL) {
assert(tmp->is_open);
if (tmp->redraw &&
(!atari_treeview_is_iconified((struct core_window *)tmp))) {
/* Content redraw only for iconified windows
* because otherwise the icon draw function
* would have to deal with plot canvas coords
*/
atari_treeview_redraw((struct core_window *)tmp);
}
tmp = tmp->next_open;
}
}