/* Tab-style (those containing real documents) windows infrastructure. */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include "elinks.h" #include "bfu/dialog.h" #include "config/options.h" #include "dialogs/menu.h" #include "document/document.h" #include "document/view.h" #include "intl/gettext/libintl.h" #include "main/select.h" #include "protocol/uri.h" #include "session/session.h" #include "terminal/screen.h" #include "terminal/tab.h" #include "terminal/terminal.h" #include "terminal/window.h" #include "util/error.h" #include "util/memory.h" #include "util/lists.h" #include "viewer/text/link.h" #include "viewer/text/view.h" struct window * init_tab(struct terminal *term, void *data, window_handler_T handler) { struct window *win = mem_calloc(1, sizeof(*win)); struct window *pos; if (!win) return NULL; win->handler = handler; win->term = term; win->data = data; win->type = WINDOW_TAB; win->resize = 1; /* Insert the new tab immediately above all existing tabs in * the stack of windows. */ foreach_tab (pos, term->windows) { pos = pos->prev; goto found_pos; } /* This is a new terminal and there are no tabs yet. If there * were a main menu already, then we'd have to place the tab * above it if it were inactive, or below if it were active. */ assert(term->main_menu == NULL); pos = (struct window *) term->windows.prev; found_pos: add_at_pos(pos, win); assert_window_stacking(term); return win; } /* Number of tabs at the terminal (in term->windows) */ inline int number_of_tabs(struct terminal *term) { int result = 0; struct window *win; foreach_tab (win, term->windows) result++; return result; } /* Number of tab */ int get_tab_number(struct window *window) { struct terminal *term = window->term; struct window *win; int current = 0; int num = 0; foreachback_tab (win, term->windows) { if (win == window) { num = current; break; } current++; } return num; } /* Get tab of an according index */ struct window * get_tab_by_number(struct terminal *term, int num) { struct window *win = NULL; foreachback_tab (win, term->windows) { if (!num) break; num--; } /* Ensure that the return value actually points to a struct * window. */ assertm((struct list_head *) win != &term->windows, "tab number out of range"); if_assert_failed return term->windows.next; return win; } /* Returns number of the tab at @xpos, or -1 if none. */ int get_tab_number_by_xpos(struct terminal *term, int xpos) { int num = 0; struct window *win = NULL; foreachback_tab (win, term->windows) { if (xpos >= win->xpos && xpos < win->xpos + win->width) return num; num++; } return -1; } /* if @tabs > 0, then it is taken as the result of a recent * call to number_of_tabs() so it just uses this value. */ void switch_to_tab(struct terminal *term, int tab, int tabs) { if (tabs < 0) tabs = number_of_tabs(term); if (tabs > 1) { if (tab >= tabs) { if (get_opt_bool("ui.tabs.wraparound")) tab = tab % tabs; else tab = tabs - 1; } if (tab < 0) { if (get_opt_bool("ui.tabs.wraparound")) tab = tabs + tab % tabs; else tab = 0; } } else tab = 0; if (tab != term->current_tab) { term->current_tab = tab; set_screen_dirty(term->screen, 0, term->height); redraw_terminal(term); } } void switch_current_tab(struct session *ses, int direction) { struct terminal *term = ses->tab->term; int num_tabs = number_of_tabs(term); int count; if (num_tabs < 2) return; count = eat_kbd_repeat_count(ses); if (count) direction *= count; switch_to_tab(term, term->current_tab + direction, num_tabs); } static void really_close_tab(struct session *ses) { struct terminal *term = ses->tab->term; struct window *current_tab = get_current_tab(term); if (ses->tab == current_tab) { int num_tabs = number_of_tabs(term); switch_to_tab(term, term->current_tab - 1, num_tabs - 1); } delete_window(ses->tab); } void close_tab(struct terminal *term, struct session *ses) { /* [gettext_accelerator_context(close_tab)] */ int num_tabs = number_of_tabs(term); if (num_tabs < 2) { query_exit(ses); return; } if (!get_opt_bool("ui.tabs.confirm_close")) { really_close_tab(ses); return; } msg_box(term, NULL, 0, N_("Close tab"), ALIGN_CENTER, N_("Do you really want to close the current tab?"), ses, 2, N_("~Yes"), (void (*)(void *)) really_close_tab, B_ENTER, N_("~No"), NULL, B_ESC); } static void really_close_tabs(struct session *ses) { struct terminal *term = ses->tab->term; struct window *current = get_current_tab(term); struct window *tab; foreach_tab (tab, term->windows) { if (tab == current) continue; tab = tab->prev; delete_window(tab->next); } term->current_tab = 0; redraw_terminal(term); } void close_all_tabs_but_current(struct session *ses) { /* [gettext_accelerator_context(close_all_tabs_but_current)] */ assert(ses); if_assert_failed return; if (!get_opt_bool("ui.tabs.confirm_close")) { really_close_tabs(ses); return; } msg_box(ses->tab->term, NULL, 0, N_("Close tab"), ALIGN_CENTER, N_("Do you really want to close all except the current tab?"), ses, 2, N_("~Yes"), (void (*)(void *)) really_close_tabs, B_ENTER, N_("~No"), NULL, B_ESC); } void open_uri_in_new_tab(struct session *ses, struct uri *uri, int in_background, int based) { assert(ses); /* @based means whether the current @ses location will be preloaded * in the tab. */ init_session(based ? ses : NULL, ses->tab->term, uri, in_background); } void delayed_open(void *data) { struct delayed_open *deo = data; assert(deo); open_uri_in_new_tab(deo->ses, deo->uri, 0, 0); done_uri(deo->uri); mem_free(deo); } void open_current_link_in_new_tab(struct session *ses, int in_background) { struct document_view *doc_view = current_frame(ses); struct uri *uri = NULL; struct link *link; if (doc_view) assert(doc_view->vs && doc_view->document); if_assert_failed return; link = get_current_link(doc_view); if (link) uri = get_link_uri(ses, doc_view, link); open_uri_in_new_tab(ses, uri, in_background, 1); if (uri) done_uri(uri); } void move_current_tab(struct session *ses, int direction) { struct terminal *term = ses->tab->term; int tabs = number_of_tabs(term); struct window *current_tab = get_current_tab(term); struct window *tab; int new_pos; int count; assert(ses && direction); count = eat_kbd_repeat_count(ses); if (count) direction *= count; new_pos = term->current_tab + direction; if (get_opt_bool("ui.tabs.wraparound")) { new_pos %= tabs; if (new_pos < 0) new_pos = tabs + new_pos; } else { int_bounds(&new_pos, 0, tabs - 1); } assert(0 <= new_pos && new_pos < tabs); /* This protects against tabs==1 and optimizes an unusual case. */ if (new_pos == term->current_tab) return; del_from_list(current_tab); if (new_pos == 0) { tab = get_tab_by_number(term, 0); } else { tab = get_tab_by_number(term, new_pos-1)->prev; } add_at_pos(tab, current_tab); switch_to_tab(term, new_pos, tabs); }