#include #include #include #define __WINDOW_CPP #include #include #if XVT_OS == XVT_OS_WIN #define STRICT #include #endif HIDDEN MENU_ITEM* find_menu_item(MENU_ITEM* menu, MENU_TAG id, bool ismbar) { MENU_ITEM* fnd = NULL; MENU_ITEM* mn = ismbar ? &menu[0] : &menu->child[0]; for (int m = 0; mn != NULL && mn->tag != 0; m++, mn=ismbar?&menu[m]:&menu->child[m]) { fnd = mn->tag == id ? mn : find_menu_item(mn, id, FALSE); if (fnd != NULL) break; } return fnd; } HIDDEN bool remove_menu_item(MENU_ITEM* menu, MENU_TAG id, bool ismbar) { MENU_ITEM* mn = ismbar ? &menu[0] : &menu->child[0]; for (int m = 0; mn != NULL && mn->tag != 0; m++, mn=ismbar?&menu[m]:&menu->child[m]) { if (mn->tag == id) { do { xvt_mem_rep((DATA_PTR)mn, (DATA_PTR)(mn+1), sizeof(MENU_ITEM), 1); mn++; } while (mn->tag != 0); return TRUE; } else if (remove_menu_item(mn, id, FALSE)) return TRUE; } return FALSE; } HIDDEN void set_menu_item(MENU_ITEM& m, TToken_string& tt) { MENU_TAG tag = tt.get_int(0); TString flag = tt.items() <= 2 ? "": tt.get(2); char* text = NULL; if (strlen(tt.get(1)) > 0) { text = (char*)xvt_mem_alloc(strlen(tt.get(1)) + 1); strcpy(text, tt.get(1)); } m.tag = tag; m.text = text; m.enabled = !(flag.find('D') != -1); m.checkable = flag.find('C') != -1 || flag.find('c') != -1; m.checked = flag.find('c') != -1; m.separator = text == NULL; } /////////////////////////////////////////////////////////// // TWindow_manager /////////////////////////////////////////////////////////// // @C // Classe TWindow_manager // // @END class TWindow_manager { // @DPRIV enum { MAX_WIN = 4 }; // Max number of modal windows TWindow* _window[MAX_WIN]; // Stack of active windows char _current; // Stack pointer void menu_enable(bool) const; // Abilita o disabilita il menu della task window FILE* _lowhandle; public: // @FPUB TWindow_manager(); // Costruttore ~TWindow_manager(); void free_handle(); void lock_handle(); void reg(TWindow* m); // Registra la finestra corrente void unreg(const TWindow* m); // De-registra la finestra corrente TWindow* cur_win() const { return (_current < 0) ? NULL : _window[_current]; } // Ritorna il puntatore alla finestra corrente void destroy(); bool can_close() const; } WinManager; TWindow_manager::TWindow_manager() : _current(-1), _lowhandle(NULL) { lock_handle(); } TWindow_manager::~TWindow_manager() { destroy(); free_handle(); } void TWindow_manager::destroy() { while (_current >= 0) { TWindow* w = cur_win(); w->stop_run(K_FORCE_CLOSE); w->close_modal(); } } void TWindow_manager::lock_handle() { CHECK(_lowhandle == NULL, "Can't relock low handle"); _lowhandle = fopen("bagn001a.msk", "r"); CHECK(_lowhandle != NULL, "Can't lock low handle"); } void TWindow_manager::free_handle() { CHECK(_lowhandle, "Can't unlock low handle"); fclose(_lowhandle); _lowhandle = NULL; } bool TWindow_manager::can_close() const { bool ok = TRUE; if (_current >= 0) ok = cur_win()->can_be_closed(); return ok; } // Dis/abilitazione del menu principale HIDDEN void xvt_menu_enable(MENU_ITEM* m, bool on) { while (m->tag) { switch(m->tag) { case MENU_FILE: if (m->child) xvt_menu_enable(m->child, on); break; case -1: // Separator case M_FILE_NEW: case M_FILE_REVERT: case M_FILE_QUIT: case M_FILE_ABOUT: case M_FILE_PRINT: case M_FILE_PG_SETUP: case (M_FILE+11): break; // Leave them as they are default: xvt_menu_set_item_enabled(TASK_WIN, m->tag, on); break; } m++; } } void TWindow_manager::menu_enable(bool on) const { MENU_ITEM *mi = xvt_menu_get_tree(TASK_WIN); xvt_menu_enable(mi, on); xvt_menu_update(TASK_WIN); xvt_res_free_menu_tree(mi); } void TWindow_manager::reg(TWindow* m) { _current++; CHECK(_current < MAX_WIN, "Too many windows"); switch (_current) { case 0 : menu_enable(FALSE); break; case 1 : xvt_menu_set_item_enabled(TASK_WIN, M_FILE_QUIT, FALSE); default: _window[_current-1]->deactivate(); break; } _window[_current] = m; } void TWindow_manager::unreg(const TWindow* m) { #ifdef DBG if (m != cur_win()) { yesnofatal_box("E' successo un casino nel Window Manager"); return; } #endif _current--; if (_current < 0) { menu_enable(TRUE); } else { cur_win()->activate(); xvt_menu_set_item_enabled(TASK_WIN, M_FILE_QUIT, _current == 0); xvt_menu_update(TASK_WIN); cur_win()->set_focus(); } } void close_all_dialogs() { WinManager.destroy(); } bool can_close() { return WinManager.can_close(); } WINDOW cur_win() { const TWindow* w = WinManager.cur_win(); return w ? w->win() : NULL_WIN; } /////////////////////////////////////////////////////////// // TImage /////////////////////////////////////////////////////////// // Setta l'immagine e le sue dimensioni (cancella immagine precedente) // Certified 99% XVT_IMAGE TImage::set(XVT_IMAGE i) { if (_image) xvt_image_destroy(_image); _image = i; if (i) { _src.left = _src.top = 0; xvt_image_get_dimensions(i, &_src.right, &_src.bottom); _dst = _src; } return _image; } // Certified 100% XVT_IMAGE TImage::load(const char* n) { WinManager.free_handle(); XVT_IMAGE i = xvt_image_read_bmp((char*)n); WinManager.lock_handle(); if (i != NULL) set(i); return i; } // Certified 100% XVT_IMAGE TImage::load(short id) { return set(xvt_res_get_image(id)); } // Certified 100% TImage::TImage(const char* n) : _image(NULL) { if (n && *n) load(n); } // Certified 100% TImage::TImage(short id) : _image(NULL) { if (id > 0) load(id); } // Certified 90% TImage::TImage(const TImage& im, short w, short h) : _image(NULL) { const XVT_IMAGE_FORMAT fmt = xvt_image_get_format(im._image); set(xvt_image_create(fmt, w, h, NULL)); if (ok()) { if (fmt == XVT_IMAGE_CL8) { const short colors = xvt_image_get_ncolors(im._image); xvt_image_set_ncolors(_image, colors); for (short c = 0; c < colors; c++) xvt_image_set_clut(_image, c, xvt_image_get_clut((XVT_IMAGE)im._image, c)); } xvt_image_transfer(_image, (XVT_IMAGE)im._image, &_src, (RCT*)&im._src); } } // Certified 100% TImage::~TImage() { if (_image != NULL) xvt_image_destroy(_image); } // Certified 100% void TImage::set_pos(int x, int y) { _dst = _src; xvt_rect_offset(&_dst, x, y); } // Certified 100% void TImage::draw(WINDOW w) const { xvt_dwin_draw_image(w, _image, (RCT*)&_dst, (RCT*)&_src); } // Certified 100% void TImage::draw(WINDOW w, int x, int y) const { RCT dst = _src; xvt_rect_offset(&dst, x, y); xvt_dwin_draw_image(w, _image, &dst, (RCT*)&_src); } // Certified 100% void TImage::draw(WINDOW w, const RCT& dst) const { xvt_dwin_draw_image(w, _image, (RCT*)&dst, (RCT*)&_src); } // Certified 100% void TImage::draw(WINDOW w, const RCT& dst, const RCT& src) const { xvt_dwin_draw_image(w, _image, (RCT*)&dst, (RCT*)&src); } // Certified 99% void TImage::set_palette(WINDOW w) const { XVT_PALETTE p = xvt_palet_create(XVT_PALETTE_USER, NULL); xvt_palet_add_colors_from_image(p, _image); xvt_vobj_set_palet(w, p); xvt_palet_destroy(p); } // Certified 100% void TImage::set_clut(byte n, COLOR c) { if (xvt_image_get_format(_image) == XVT_IMAGE_CL8) xvt_image_set_clut(_image, n, c); } // Certified 99% void TImage::convert_to_default_colors() { if (MASK_BACK_COLOR != COLOR_DKCYAN && xvt_image_get_format(_image) == XVT_IMAGE_CL8) { short dx, dy; xvt_image_get_dimensions(_image, &dx, &dy); for (short y = 0; y < dy; y++) for (short x = 0; x < dx; x++) { const COLOR c = xvt_image_get_pixel(_image, x, y); switch (c) { case COLOR_DKCYAN & 0x00FFFFFF: xvt_image_set_pixel(_image, x, y, MASK_BACK_COLOR); break; case COLOR_CYAN & 0x00FFFFFF: xvt_image_set_pixel(_image, x, y, MASK_LIGHT_COLOR); break; case COLOR_GRAY & 0x00FFFFFF: xvt_image_set_pixel(_image, x, y, MASK_DARK_COLOR); break; default: break; } } } } /////////////////////////////////////////////////////////// // TWindow /////////////////////////////////////////////////////////// DRAW_CTOOLS TWindow::_ct; bool TWindow::_ctools_saved; TWindow::TWindow() : _win(NULL_WIN), _open(FALSE), _modal(FALSE), _active(TRUE), _running(FALSE), _pixmap(FALSE), _lastkey(0) {} long XVT_CALLCONV1 TWindow::window_handler(WINDOW win, EVENT* ep) { TWindow* w = (TWindow*)xvt_vobj_get_data(win); CHECK(w != NULL, "Invalid window"); w->handler(win, ep); return 0L; } WINDOW TWindow::create(short x, short y, short dx, short dy, const char* title, long flags, WIN_TYPE wt, WINDOW parent, int menu) { if (menu == 0) flags |= WSF_NO_MENUBAR; if (parent == NULL_WIN) parent = TASK_WIN; if (parent == TASK_WIN) flags |= WSF_INVISIBLE; _win = xvt_create_window( wt, x, y, dx, dy, title, menu, parent, flags, window_handler, PTR_LONG(this) ); CHECK(_win, "Can't create a window"); return _win; } TWindow::~TWindow() { if (_win != NULL_WIN) { xvt_vobj_destroy(_win); _win = NULL_WIN; } } void TWindow::open() { CHECK(win() != NULL_WIN, "Can't open a NULL window"); xvt_vobj_set_visible(win(), _open = TRUE); xvt_scr_set_focus_vobj(win()); xvt_vobj_raise(win()); } void TWindow::open_modal() { set_modal(TRUE); _open = TRUE; open(); WinManager.reg(this); } void TWindow::close() { CHECK(_win != NULL_WIN, "Can't close a NULL window"); xvt_vobj_set_visible(_win, _open = FALSE); } void TWindow::close_modal() { WinManager.unreg(this); close(); _open = FALSE; } bool TWindow::stop_run(KEY key) { _running = FALSE; _lastkey = key; return TRUE; } bool TWindow::can_be_closed() const { const bool ok = !is_modal(); if (!ok) error_box("Chiudere la finestra attiva prima di uscire dal programma"); return ok; } KEY TWindow::run() { const bool was_open = is_open(); start_run(); _running = TRUE; if (!was_open) open_modal(); else open(); while (_running) do_events(); if (!was_open) close_modal(); return last_key(); } void TWindow::handler(WINDOW win, EVENT* ep) { switch(ep->type) { case E_CLOSE: stop_run(K_ESC); break; case E_UPDATE: xvt_dwin_clear(win, NORMAL_BACK_COLOR); update(); break; case E_CHAR: on_key(e_char_to_key(ep)); break; case E_DESTROY: _win = NULL_WIN; break; default: break; } } void TWindow::on_idle() { // Non c'e' niente da fare qui, ma non si puo' mai sapere } TPoint TWindow::size() const { RCT r; xvt_vobj_get_client_rect(win() ? win() : TASK_WIN, &r); return TPoint(r.right / CHARX, r.bottom / CHARY); } WINDOW TWindow::parent() const { return xvt_vobj_get_parent(win()); } void TWindow::set_focus() { if (_win) { xvt_scr_set_focus_vobj(_win); xvt_vobj_raise(_win); } } void TWindow::iconize() const { #if XVTWS != WMWS HWND hwnd = (HWND)xvt_vobj_get_attr(win(), ATTR_NATIVE_WINDOW); ShowWindow(hwnd, SW_MINIMIZE); #endif } void TWindow::maximize() const { #if XVTWS != WMWS HWND hwnd = (HWND)xvt_vobj_get_attr(win(), ATTR_NATIVE_WINDOW); ShowWindow(hwnd, SW_SHOWMAXIMIZED); #else RCT r; xvt_rect_set(&r, 1,1,79,23); xvt_vobj_move(win(),&r); #endif } void TWindow::activate(bool on) { xvt_vobj_set_enabled(win(), _active = on); } void TWindow::set_caption(const char* title) { xvt_vobj_set_title(win(), (char*)title); } const char* TWindow::get_caption() const { char* title = &__tmp_string[512]; xvt_vobj_get_title(win(), title, 80); return title; } void TWindow::force_update() { if (win() != NULL_WIN) xvt_dwin_invalidate_rect(win(), NULL); } bool TWindow::save_ctools() { if (_ctools_saved == FALSE) { xvt_dwin_get_draw_ctools(win(), &_ct); return _ctools_saved = TRUE; } return FALSE; } bool TWindow::restore_ctools() { if (_ctools_saved) { xvt_dwin_set_draw_ctools(win(), &_ct); _ctools_saved = FALSE; return TRUE; } return FALSE; } void TWindow::set_color(COLOR fore, COLOR back) { xvt_dwin_set_fore_color(win(), fore); xvt_dwin_set_back_color(win(), back); } void TWindow::set_pen(COLOR color, int width, PAT_STYLE pat, PEN_STYLE style) { CPEN pen; pen.width = width; pen.pat = pat; pen.style = style; pen.color = color; xvt_dwin_set_cpen(win(), &pen); } void TWindow::hide_pen() { xvt_dwin_set_std_cpen(win(), TL_PEN_HOLLOW); } void TWindow::set_brush(COLOR color, PAT_STYLE pat) { CBRUSH brush = { pat, color }; xvt_dwin_set_cbrush(win(), &brush); } void TWindow::hide_brush() { CBRUSH brush = { PAT_HOLLOW, COLOR_WHITE }; xvt_dwin_set_cbrush(win(), &brush); } HIDDEN void swap(short& a, short& b) { short tmp = a; a = b; b = tmp; } void TWindow::frame(short left, short top, short right, short bottom, int flag) { if (left > right) swap(left, right); if (top > bottom) swap(top, bottom); const bool saved = flag && save_ctools(); if (flag & 1) hide_pen(); if (flag & 2) hide_brush(); if (flag & 4) { set_mode(M_XOR); set_brush(COLOR_BLACK); // Needed for Windows } const PNT f = log2dev(left,top); const PNT t = log2dev(right,bottom); RCT r; r.top = f.v; r.left = f.h; r.bottom = t.v; r.right = t.h; #if XVTWS != WMWS if (flag & 2) { r.left += CHARX>>1; r.top += CHARY>>1; r.right-= CHARX>>1; r.bottom -= CHARY>>1; } #endif xvt_dwin_draw_rect(win(), &r); if (saved) restore_ctools(); } void TWindow::rect(short left, short top, short right, short bottom) { frame(left, top, right, bottom, 2); } void TWindow::bar(short left, short top, short right, short bottom) { frame(left, top, right, bottom, 1); } void TWindow::invert_bar(short left, short top, short right, short bottom) { frame(left, top, right, bottom, 5); } void TWindow::set_opaque_text(bool o) { DRAW_CTOOLS ct; xvt_dwin_get_draw_ctools(win(), &ct); ct.opaque_text = o; xvt_dwin_set_draw_ctools(win(), &ct); } void TWindow::set_font(const char* family, int style, int dim) { xvt_set_font(win(), family, style, dim); } PNT TWindow::log2dev(long x, long y) const { PNT pnt; pnt.h = (int)x; pnt.v = (int)y; if (!_pixmap) { pnt.h *= CHARX; pnt.v *= CHARY; } return pnt; } TPoint TWindow::dev2log(const PNT& p) const { TPoint pnt(_pixmap ? p.h : p.h/CHARX, _pixmap ? p.v : p.v/CHARY); return pnt; } void TWindow::stringat(short x, short y, const char* str) { PNT pnt = log2dev(x,y); #if XVTWS != WMWS pnt.v += BASEY; #endif xvt_dwin_draw_text(win(), pnt.h, pnt.v, (char *)str, -1); } void TWindow::printat(short x, short y, const char* fmt, ...) { va_list argptr; va_start(argptr, fmt); vsprintf(__tmp_string, fmt, argptr); va_end(argptr); stringat(x, y, __tmp_string); } void TWindow::line(short x0, short y0, short x1, short y1) { PNT f = log2dev(x0,y0); PNT t = log2dev(x1,y1); #if XVTWS != WMWS if (f.h == 0) f.h = -CHARX; else f.h += CHARX>>1; if (f.v == 0) f.v = -CHARY; else f.v += CHARY>>1; if (t.h == 0) t.h = -CHARX; else t.h += CHARX>>1; if (t.v == 0) t.v = -CHARY; else t.v += CHARY>>1; #endif xvt_dwin_draw_set_pos(_win, f); xvt_dwin_draw_line(_win, t); } void TWindow::icon(short x0, short y0, int iconid) { #if XVTWS == WMWS bar(x0, y0, x0+1, y0+1); #else PNT f = log2dev(x0,y0); if (iconid < 0) iconid = ICON_RSRC; xvt_dwin_draw_icon(win(), f.h, f.v, iconid); #endif } void TWindow::clear(COLOR color) { xvt_dwin_clear(win(), color); } void TWindow::set_mode(DRAW_MODE mode) { xvt_dwin_set_draw_mode(win(), mode); } bool TWindow::add_menu(TString_array& menu, MENU_TAG id, bool force) { CHECK(menu.items() > 0, "TWindow::add_menu: no menus to add"); // get menu tree MENU_ITEM* menubar = xvt_menu_get_tree(win()); if (id == 0) // add to menubar { // count menus for (int nmen = 0; menubar[nmen].tag != 0; nmen++); menubar = (MENU_ITEM*)xvt_mem_realloc((DATA_PTR)menubar, sizeof(MENU_ITEM)*(nmen+menu.items()+1)); // zero new xvt_mem_rep((DATA_PTR)&menubar[nmen], "\0", 1, sizeof(MENU_ITEM)*(menu.items()+1)); // add new menus for (int i = 0; i < menu.items(); i++) set_menu_item(menubar[nmen+i], menu.row(i)); } else // add to menu { MENU_ITEM* father = find_menu_item(menubar, id, TRUE); CHECK(father != NULL, "TWindow::add_menu: you're adding to a NULL menu item"); // count children for (int nmen = 0; father->child != NULL && father->child[nmen].tag != 0; nmen++); father->child = (MENU_ITEM*)xvt_mem_realloc((DATA_PTR)father->child, sizeof(MENU_ITEM)*(nmen+menu.items()+1)); // zero new xvt_mem_rep((DATA_PTR)&(father->child[nmen]), "\0", 1, sizeof(MENU_ITEM)*(menu.items()+1)); // add new menus for (int i = 0; i < menu.items(); i++) set_menu_item(father->child[nmen+i], menu.row(i)); } xvt_menu_set_tree(win(), menubar); xvt_res_free_menu_tree(menubar); return TRUE; } bool TWindow::remove_menu(MENU_TAG id) { MENU_ITEM* menubar = xvt_menu_get_tree(win()); if (remove_menu_item(menubar, id, TRUE)) { xvt_menu_set_tree(win(),menubar); xvt_res_free_menu_tree(menubar); } return TRUE; } /////////////////////////////////////////////////////////// // TTemp_window /////////////////////////////////////////////////////////// TTemp_window::TTemp_window(WINDOW w) { set_win(w); } TTemp_window::~TTemp_window() { set_win(NULL_WIN); // I don't want to be closed! } /////////////////////////////////////////////////////////// // TScroll_window /////////////////////////////////////////////////////////// TScroll_window::TScroll_window() : _origin(0, 0), _max(0, 0), _shift(0), _autoscroll(TRUE), _has_hscroll(TRUE), _has_vscroll(TRUE) { } WINDOW TScroll_window::create(short x, short y, short dx, short dy, const char* title, long flags, WIN_TYPE wt, WINDOW parent, int menu) { _has_hscroll = (flags & WSF_HSCROLL) != 0; _has_vscroll = (flags & WSF_VSCROLL) != 0 ; return TWindow::create(x, y, dx, dy, title, flags, wt, parent, menu); } PNT TScroll_window::log2dev(long x, long y) const { if (_autoscroll) { x -= _origin.x; y -= _origin.y >> _shift; } return TWindow::log2dev(x,y); } void TScroll_window::set_scroll_max(long maxx, long maxy) { if (_has_hscroll && maxx >= 0) { _max.x = maxx; xvt_sbar_set_range(win(), HSCROLL, 0, int(maxx)); } if (_has_vscroll && maxy >= 0) { _shift = 0; while ((maxy >> _shift) > 0x7FFF) _shift++; _max.y = maxy; xvt_sbar_set_range(win(), VSCROLL, 0, int(maxy >> _shift)); } } void TScroll_window::update_thumb(long x, long y) { if (x >= 0 && x <= _max.x) _origin.x = x; if (y >= 0 && y <= _max.y) _origin.y = y; if (_has_hscroll) xvt_sbar_set_pos(win(), HSCROLL, int(_origin.x)); if (_has_vscroll) xvt_sbar_set_pos(win(), VSCROLL, int(_origin.y >> _shift)); } void TScroll_window::handler(WINDOW win, EVENT* ep) { bool up = FALSE; switch (ep->type) { case E_HSCROLL: case E_VSCROLL: { long& pos = (ep->type == E_HSCROLL) ? _origin.x : _origin.y; long& max = (ep->type == E_HSCROLL) ? _max.x : _max.y; short pag = (ep->type == E_HSCROLL) ? columns()/2+1 : rows()/2+1; switch(ep->v.scroll.what) { case SC_PAGE_UP: pos -= pag; up = TRUE; break; case SC_LINE_UP: pos--; up = TRUE; break; case SC_PAGE_DOWN: pos += pag; up = TRUE; break; case SC_LINE_DOWN: pos++; up = TRUE; break; case SC_THUMB: pos = ep->v.scroll.pos; up = TRUE; break; default: break; } if (pos < 0) pos = 0; if (pos > max) pos = max; } break; default: break; } if (up) { update_thumb(); force_update(); } TWindow::handler(win, ep); } bool TScroll_window::on_key(KEY key) { switch(key) { case K_LHOME: update_thumb(0,0); force_update(); break; case K_LEND: update_thumb(0,range().y); force_update(); break; case K_TAB: update_thumb(origin().x+8); force_update(); break; case K_BTAB: { long x = origin().x-8; if (x < 0) x = 0; update_thumb(x); force_update(); } break; case K_UP: case K_DOWN: case K_PREV: case K_NEXT: case K_LEFT: case K_RIGHT: dispatch_e_scroll(win(), key); break; default: break; } return TWindow::on_key(key); }