netsurf/atari/treeview.c

482 lines
13 KiB
C
Executable File

/*
* Copyright 2010 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 <stdbool.h>
#include <stdint.h>
#include <stdlib.h>
#include <string.h>
#include <time.h>
#include <windom.h>
#include "content/urldb.h"
#include "desktop/browser.h"
#include "desktop/plotters.h"
#include "desktop/textinput.h"
#include "desktop/tree.h"
#include "desktop/tree_url_node.h"
#include "desktop/textinput.h"
#include "utils/log.h"
#include "utils/messages.h"
#include "utils/utils.h"
#include "atari/gui.h"
#include "atari/treeview.h"
#include "atari/plot.h"
#include "atari/misc.h"
#include "cflib.h"
extern int mouse_hold_start[3];
extern browser_mouse_state bmstate;
extern short last_drag_x;
extern short last_drag_y;
extern GEM_PLOTTER plotter;
static void atari_treeview_resized(struct tree *tree,int w,int h,void *pw);
static void atari_treeview_scroll_visible(int y, int h, void *pw);
static void atari_treeview_get_dimensions(int *width, int *height,void *pw);
static const struct treeview_table atari_tree_callbacks = {
atari_treeview_request_redraw,
atari_treeview_resized,
atari_treeview_scroll_visible,
atari_treeview_get_dimensions
};
static void __CDECL evnt_tv_keybd( WINDOW *win, short buff[8], void * data )
{
bool r=false;
long kstate = 0;
long kcode = 0;
unsigned short nkc = 0;
unsigned short nks = 0;
unsigned char ascii;
NSTREEVIEW tv = (NSTREEVIEW) data;
kstate = evnt.mkstate;
kcode = evnt.keybd;
nkc= gem_to_norm( (short)kstate, (short)kcode );
ascii = (nkc & 0xFF);
nkc = (nkc & (NKF_CTRL|NKF_SHIFT|0xFF));
if( (nkc & (NKF_SHIFT|NKF_CTRL) ) == 0 ) {
switch( ascii ) {
case NK_BS:
r = tree_keypress( tv->tree, KEY_DELETE_LEFT);
break;
case NK_DEL:
r = tree_keypress( tv->tree, KEY_DELETE_RIGHT);
break;
case NK_ENTER:
r = tree_keypress( tv->tree, KEY_NL);
break;
case NK_RET:
r = tree_keypress( tv->tree, KEY_CR);
break;
case NK_ESC:
r = tree_keypress( tv->tree, KEY_ESCAPE);
break;
case NK_RIGHT:
r = tree_keypress( tv->tree, KEY_RIGHT );
break;
case NK_LEFT:
r = tree_keypress( tv->tree, KEY_LEFT );
break;
default:
break;
}
}
if ( r == false && ( (nkc & NKF_CTRL)==0) ) {
int ucs4 = atari_to_ucs4(ascii);
tree_keypress( tv->tree, ucs4 );
}
}
static void __CDECL evnt_tv_redraw( WINDOW *win, short buff[8], void * data )
{
GRECT work, clip;
NSTREEVIEW tv = (NSTREEVIEW) data;
if( tv == NULL )
return;
WindGetGrect( win, WF_WORKXYWH, &work );
clip = work;
if ( !rc_intersect( (GRECT*)&buff[4], &clip ) ) return;
clip.g_x -= work.g_x;
clip.g_y -= work.g_y;
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;
}
if( clip.g_h > 0 && clip.g_w > 0 ) {
atari_treeview_request_redraw( win->xpos*win->w_u + clip.g_x, win->ypos*win->h_u + clip.g_y,
clip.g_w, clip.g_h, tv
);
}
}
static void __CDECL evnt_tv_mbutton( WINDOW *win, short buff[8], void * data )
{
GRECT work;
bool ignore=false;
NSTREEVIEW tv = (NSTREEVIEW) data;
if( tv == NULL )
return;
if( evnt.mbut & 2 ) {
/* do not handle right click */
return;
}
WindGetGrect( tv->window, WF_WORKXYWH, &work );
int rx = (evnt.mx-work.g_x)+(win->xpos*win->w_u);
int ry = (evnt.my-work.g_y)+(win->ypos*win->h_u);
if( rx >= 0 && ry >= 0 && evnt.mx < work.g_x + work.g_w &&
evnt.my < work.g_y + work.g_h ){
short mx, my, dummy, mbut;
uint32_t tnow = clock()*1000 / CLOCKS_PER_SEC;
if( evnt.mkstate & (K_RSHIFT | K_LSHIFT) ){
bmstate |= BROWSER_MOUSE_MOD_1;
} else {
bmstate &= ~(BROWSER_MOUSE_MOD_1);
}
if( (evnt.mkstate & K_CTRL) ){
bmstate |= BROWSER_MOUSE_MOD_2;
} else {
bmstate &= ~(BROWSER_MOUSE_MOD_2);
}
if( (evnt.mkstate & K_ALT) ){
bmstate |= BROWSER_MOUSE_MOD_3;
} else {
bmstate &= ~(BROWSER_MOUSE_MOD_3);
}
graf_mkstate(&dummy, &dummy, &mbut, &dummy);
if( evnt.nb_click == 2 ) {
bmstate = BROWSER_MOUSE_CLICK_1 | BROWSER_MOUSE_DOUBLE_CLICK;
mouse_hold_start[0] = 0;
} else {
if( mbut & 1 ) {
bmstate |= BROWSER_MOUSE_DRAG_ON;
if( mouse_hold_start[0] == 0) {
mouse_hold_start[0] = tnow;
tv->startdrag.x = rx;
tv->startdrag.y = ry;
bmstate |= BROWSER_MOUSE_DRAG_1;
gem_set_cursor(&gem_cursors.cross);
} else {
/* todo: add more isual indication (grafbox?) */
ignore = true;
gem_set_cursor(&gem_cursors.cross);
}
} else {
if( bmstate & BROWSER_MOUSE_DRAG_ON ){
bmstate = 0;
tree_drag_end(tv->tree, bmstate, tv->startdrag.x, tv->startdrag.y, rx, ry);
gem_set_cursor(&gem_cursors.arrow);
ignore = true;
} else {
bmstate = BROWSER_MOUSE_CLICK_1;
mouse_hold_start[0] = 0;
}
}
}
if( !ignore ) {
tree_mouse_action(tv->tree, bmstate, rx, ry );
}
bmstate &= ~(BROWSER_MOUSE_DOUBLE_CLICK | BROWSER_MOUSE_CLICK_1 );
}
}
static void __CDECL evnt_tv_m1( WINDOW *win, short buff[8], void * data)
{
GRECT work;
NSTREEVIEW tv = (NSTREEVIEW) data;
if( tv == NULL )
return;
if( bmstate & BROWSER_MOUSE_DRAG_ON ) {
short mbut, dummy;
graf_mkstate(&dummy, &dummy, &mbut, &dummy);
if( !(mbut & 1) ){
WindGetGrect( tv->window, WF_WORKXYWH, &work );
int rx = (evnt.mx-work.g_x)+(win->xpos*win->w_u);
int ry = (evnt.my-work.g_y)+(win->ypos*win->h_u);
bmstate = 0;
tree_drag_end(tv->tree, bmstate, tv->startdrag.x, tv->startdrag.y, rx, ry);
gem_set_cursor(&gem_cursors.arrow);
}
}
}
NSTREEVIEW atari_treeview_create( uint32_t flags, WINDOW *win )
{
if( win == NULL )
return( NULL );
NSTREEVIEW new = malloc(sizeof(struct atari_treeview));
if (new == NULL)
return NULL;
memset( new, 0, sizeof(struct atari_treeview));
new->tree = tree_create(flags, &atari_tree_callbacks, new);
if (new->tree == NULL) {
free(new);
return NULL;
}
new->window = win;
win->w_u = 16;
win->h_u = 16;
EvntDataAdd( new->window, WM_XBUTTON, evnt_tv_mbutton, new, EV_BOT );
EvntDataAttach( new->window, WM_REDRAW, evnt_tv_redraw, new );
EvntDataAttach( new->window, WM_XKEYBD, evnt_tv_keybd, new );
EvntDataAttach( new->window, WM_XM1, evnt_tv_m1, new );
return(new);
}
void atari_treeview_open( NSTREEVIEW tv )
{
if( tv->window != NULL ) {
tree_set_redraw(tv->tree, true);
}
}
void atari_treeview_close( NSTREEVIEW tv )
{
if( tv->window != NULL ) {
tree_set_redraw(tv->tree, false);
}
}
void atari_treeview_destroy( NSTREEVIEW tv )
{
if( tv != NULL ){
tv->disposing = true;
LOG(("tree: %p", tv));
if( tv->tree != NULL ) {
tree_delete(tv->tree);
tv->tree = NULL;
}
free( tv );
}
}
bool atari_treeview_mevent( NSTREEVIEW tv, browser_mouse_state bms, int x, int y)
{
if( tv == NULL )
return ( false );
GRECT work;
WindGetGrect( tv->window, WF_WORKXYWH, &work );
int rx = (x-work.g_x)+(tv->window->xpos*tv->window->w_u);
int ry = (y-work.g_y)+(tv->window->ypos*tv->window->h_u);
tree_mouse_action(tv->tree, bms, rx, ry );
tv->click.x = rx;
tv->click.y = ry;
return( true );
}
void atari_treeview_redraw( NSTREEVIEW tv)
{
if (tv != NULL) {
if( tv->redraw && ((plotter->flags & PLOT_FLAG_OFFSCREEN) == 0) ) {
short todo[4];
GRECT work;
WindGetGrect( tv->window, WF_WORKXYWH, &work );
struct redraw_context ctx = {
.interactive = true,
.plot = &atari_plotters
};
plotter->resize(plotter, work.g_w, work.g_h);
plotter->move(plotter, work.g_x, work.g_y );
todo[0] = work.g_x;
todo[1] = work.g_y;
todo[2] = todo[0] + work.g_w-1;
todo[3] = todo[1] + work.g_h-1;
vs_clip(plotter->vdi_handle, 1, (short*)&todo );
if( wind_get(tv->window->handle, WF_FIRSTXYWH,
&todo[0], &todo[1], &todo[2], &todo[3] )!=0 ) {
while (todo[2] && todo[3]) {
/* convert screen to treeview coords: */
todo[0] = todo[0] - work.g_x + tv->window->xpos*tv->window->w_u;
todo[1] = todo[1] - work.g_y + tv->window->ypos*tv->window->h_u;
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)) {
tree_draw(tv->tree, -tv->window->xpos*16, -tv->window->ypos*16,
todo[0], todo[1], todo[2], todo[3], &ctx
);
}
if (wind_get(tv->window->handle, WF_NEXTXYWH,
&todo[0], &todo[1], &todo[2], &todo[3])==0) {
break;
}
}
} else {
return;
}
vs_clip(plotter->vdi_handle, 0, (short*)&todo);
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 */
}
}
}
/**
* Callback to force a redraw of part of the treeview window.
*
* \param x Min X Coordinate of area to be redrawn.
* \param y Min Y Coordinate of area to be redrawn.
* \param width Width of area to be redrawn.
* \param height Height of area to be redrawn.
* \param pw The treeview object to be redrawn.
*/
void atari_treeview_request_redraw(int x, int y, int w, int h, void *pw)
{
if (pw != NULL) {
NSTREEVIEW tv = (NSTREEVIEW) pw;
if( tv->redraw == false ){
tv->redraw = true;
tv->rdw_area.g_x = x;
tv->rdw_area.g_y = y;
tv->rdw_area.g_w = w;
tv->rdw_area.g_h = h;
} else {
/* merge the redraw area to the new area.: */
int newx1 = x+w;
int newy1 = y+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, x);
tv->rdw_area.g_y = MIN(tv->rdw_area.g_y, y);
tv->rdw_area.g_w = ( oldx1 > newx1 ) ? oldx1 - tv->rdw_area.g_x : newx1 - tv->rdw_area.g_x;
tv->rdw_area.g_h = ( oldy1 > newy1 ) ? oldy1 - tv->rdw_area.g_y : newy1 - tv->rdw_area.g_y;
}
}
}
/**
* Callback to notify us of a new overall tree size.
*
* \param tree The tree being resized.
* \param width The new width of the window.
* \param height The new height of the window.
* \param *pw The treeview object to be resized.
*/
void atari_treeview_resized(struct tree *tree, int width, int height, void *pw)
{
if (pw != NULL) {
NSTREEVIEW tv = (NSTREEVIEW) pw;
if( tv->disposing )
return;
tv->extent.x = width;
tv->extent.y = height;
tv->window->ypos_max = (height / tv->window->w_u)+0.5;
tv->window->xpos_max = (width / tv->window->h_u)+0.5;
WindSlider( tv->window, HSLIDER|VSLIDER );
}
}
/**
* Callback to request that a section of the tree is scrolled into view.
*
* \param y The Y coordinate of top of the area in NS units.
* \param height The height of the area in NS units.
* \param *pw The treeview object affected.
*/
void atari_treeview_scroll_visible(int y, int height, void *pw)
{
/* we don't support dragging within the treeview */
/* so we don't need to implement this */
}
/**
* Callback to return the tree window dimensions to the treeview system.
*
* \param *width Return the window width.
* \param *height Return the window height.
* \param *pw The treeview object to use.
*/
void atari_treeview_get_dimensions(int *width, int *height,
void *pw)
{
if (pw != NULL && (width != NULL || height != NULL)) {
NSTREEVIEW tv = (NSTREEVIEW) pw;
GRECT work;
WindGetGrect( tv->window, WF_WORKXYWH, &work );
*width = work.g_w;
*height = work.g_h;
}
}
/**
* Translates a content_type to the name of a respective icon
*
* \param content_type content type
* \param buffer buffer for the icon name
*/
void tree_icon_name_from_content_type(char *buffer, content_type type)
{
switch (type) {
case CONTENT_HTML:
case CONTENT_TEXTPLAIN:
case CONTENT_CSS:
case CONTENT_IMAGE:
default:
strcpy( buffer, "content.png" );
break;
}
}