Mercurial > vim
view src/popupmenu.c @ 32274:83caf07aedd6 v9.0.1468
patch 9.0.1468: recursively calling :defer function if it does :qa
Commit: https://github.com/vim/vim/commit/a1f2b5ddc63d4e2b6ab047d8c839dd8477b36aba
Author: zeertzjq <zeertzjq@outlook.com>
Date: Tue Apr 18 21:04:53 2023 +0100
patch 9.0.1468: recursively calling :defer function if it does :qa
Problem: Recursively calling :defer function if it does :qa in a compiled
function.
Solution: Clear the defer entry before calling the function. (closes #12271)
author | Bram Moolenaar <Bram@vim.org> |
---|---|
date | Tue, 18 Apr 2023 22:15:04 +0200 |
parents | eae369cd4dcf |
children | 64e6e523d32d |
line wrap: on
line source
/* vi:set ts=8 sts=4 sw=4 noet: * * VIM - Vi IMproved by Bram Moolenaar * * Do ":help uganda" in Vim to read copying and usage conditions. * Do ":help credits" in Vim to see a list of people who contributed. * See README.txt for an overview of the Vim source code. */ /* * popupmenu.c: Popup menu (PUM) */ #include "vim.h" static pumitem_T *pum_array = NULL; // items of displayed pum static int pum_size; // nr of items in "pum_array" static int pum_selected; // index of selected item or -1 static int pum_first = 0; // index of top item static int call_update_screen = FALSE; static int pum_height; // nr of displayed pum items static int pum_width; // width of displayed pum items static int pum_base_width; // width of pum items base static int pum_kind_width; // width of pum items kind column static int pum_extra_width; // width of extra stuff static int pum_scrollbar; // TRUE when scrollbar present static int pum_row; // top row of pum static int pum_col; // left column of pum static win_T *pum_window = NULL; static int pum_win_row; static int pum_win_height; static int pum_win_col; static int pum_win_wcol; static int pum_win_width; // Some parts are not updated when a popup menu is visible. Setting this flag // makes pum_visible() return FALSE even when there is a popup menu. static int pum_pretend_not_visible = FALSE; static int pum_set_selected(int n, int repeat); #define PUM_DEF_HEIGHT 10 static void pum_compute_size(void) { int i; int w; // Compute the width of the widest match and the widest extra. pum_base_width = 0; pum_kind_width = 0; pum_extra_width = 0; for (i = 0; i < pum_size; ++i) { if (pum_array[i].pum_text != NULL) { w = vim_strsize(pum_array[i].pum_text); if (pum_base_width < w) pum_base_width = w; } if (pum_array[i].pum_kind != NULL) { w = vim_strsize(pum_array[i].pum_kind) + 1; if (pum_kind_width < w) pum_kind_width = w; } if (pum_array[i].pum_extra != NULL) { w = vim_strsize(pum_array[i].pum_extra) + 1; if (pum_extra_width < w) pum_extra_width = w; } } } /* * Show the popup menu with items "array[size]". * "array" must remain valid until pum_undisplay() is called! * When possible the leftmost character is aligned with cursor column. * The menu appears above the screen line "row" or at "row" + "height" - 1. */ void pum_display( pumitem_T *array, int size, int selected) // index of initially selected item, none if // out of range { int def_width; int max_width; int context_lines; int cursor_col; int above_row; int below_row; int redo_count = 0; #if defined(FEAT_QUICKFIX) win_T *pvwin; #endif #ifdef FEAT_RIGHTLEFT int right_left = State == MODE_CMDLINE ? FALSE : curwin->w_p_rl; #endif do { def_width = p_pw; above_row = 0; below_row = cmdline_row; // Pretend the pum is already there to avoid that must_redraw is set // when 'cuc' is on. pum_array = (pumitem_T *)1; validate_cursor_col(); pum_array = NULL; // Remember the essential parts of the window position and size, so we // can decide when to reposition the popup menu. pum_window = curwin; if (State == MODE_CMDLINE) // cmdline completion popup menu pum_win_row = cmdline_row; else pum_win_row = curwin->w_wrow + W_WINROW(curwin); pum_win_height = curwin->w_height; pum_win_col = curwin->w_wincol; pum_win_wcol = curwin->w_wcol; pum_win_width = curwin->w_width; #if defined(FEAT_QUICKFIX) FOR_ALL_WINDOWS(pvwin) if (pvwin->w_p_pvw) break; if (pvwin != NULL) { if (W_WINROW(pvwin) < W_WINROW(curwin)) above_row = W_WINROW(pvwin) + pvwin->w_height; else if (W_WINROW(pvwin) > W_WINROW(curwin) + curwin->w_height) below_row = W_WINROW(pvwin); } #endif /* * Figure out the size and position of the pum. */ if (size < PUM_DEF_HEIGHT) pum_height = size; else pum_height = PUM_DEF_HEIGHT; if (p_ph > 0 && pum_height > p_ph) pum_height = p_ph; // Put the pum below "pum_win_row" if possible. If there are few lines // decide on where there is more room. if (pum_win_row + 2 >= below_row - pum_height && pum_win_row - above_row > (below_row - above_row) / 2) { // pum above "pum_win_row" if (State == MODE_CMDLINE) // for cmdline pum, no need for context lines context_lines = 0; else { // Leave two lines of context if possible if (curwin->w_wrow - curwin->w_cline_row >= 2) context_lines = 2; else context_lines = curwin->w_wrow - curwin->w_cline_row; } if (pum_win_row >= size + context_lines) { pum_row = pum_win_row - size - context_lines; pum_height = size; } else { pum_row = 0; pum_height = pum_win_row - context_lines; } if (p_ph > 0 && pum_height > p_ph) { pum_row += pum_height - p_ph; pum_height = p_ph; } } else { // pum below "pum_win_row" if (State == MODE_CMDLINE) // for cmdline pum, no need for context lines context_lines = 0; else { // Leave two lines of context if possible validate_cheight(); if (curwin->w_cline_row + curwin->w_cline_height - curwin->w_wrow >= 3) context_lines = 3; else context_lines = curwin->w_cline_row + curwin->w_cline_height - curwin->w_wrow; } pum_row = pum_win_row + context_lines; if (size > below_row - pum_row) pum_height = below_row - pum_row; else pum_height = size; if (p_ph > 0 && pum_height > p_ph) pum_height = p_ph; } // don't display when we only have room for one line if (pum_height < 1 || (pum_height == 1 && size > 1)) return; #if defined(FEAT_QUICKFIX) // If there is a preview window above avoid drawing over it. if (pvwin != NULL && pum_row < above_row && pum_height > above_row) { pum_row = above_row; pum_height = pum_win_row - above_row; } #endif pum_array = array; pum_size = size; pum_compute_size(); max_width = pum_base_width; // Calculate column if (State == MODE_CMDLINE) // cmdline completion popup menu cursor_col = cmdline_compl_startcol(); else { // w_wcol includes virtual text "above" int wcol = curwin->w_wcol % curwin->w_width; #ifdef FEAT_RIGHTLEFT if (right_left) cursor_col = curwin->w_wincol + curwin->w_width - wcol - 1; else #endif cursor_col = curwin->w_wincol + wcol; } // if there are more items than room we need a scrollbar if (pum_height < size) { pum_scrollbar = 1; ++max_width; } else pum_scrollbar = 0; if (def_width < max_width) def_width = max_width; if (((cursor_col < Columns - p_pw || cursor_col < Columns - max_width) #ifdef FEAT_RIGHTLEFT && !right_left) || (right_left && (cursor_col > p_pw || cursor_col > max_width) #endif )) { // align pum with "cursor_col" pum_col = cursor_col; // start with the maximum space available #ifdef FEAT_RIGHTLEFT if (right_left) pum_width = pum_col - pum_scrollbar + 1; else #endif pum_width = Columns - pum_col - pum_scrollbar; if (pum_width > max_width + pum_kind_width + pum_extra_width + 1 && pum_width > p_pw) { // the width is more than needed for the items, make it // narrower pum_width = max_width + pum_kind_width + pum_extra_width + 1; if (pum_width < p_pw) pum_width = p_pw; } else if (((cursor_col > p_pw || cursor_col > max_width) #ifdef FEAT_RIGHTLEFT && !right_left) || (right_left && (cursor_col < Columns - p_pw || cursor_col < Columns - max_width) #endif )) { // align pum edge with "cursor_col" #ifdef FEAT_RIGHTLEFT if (right_left && W_ENDCOL(curwin) < max_width + pum_scrollbar + 1) { pum_col = cursor_col + max_width + pum_scrollbar + 1; if (pum_col >= Columns) pum_col = Columns - 1; } else if (!right_left) #endif { if (curwin->w_wincol > Columns - max_width - pum_scrollbar && max_width <= p_pw) { // use full width to end of the screen pum_col = Columns - max_width - pum_scrollbar; if (pum_col < 0) pum_col = 0; } } #ifdef FEAT_RIGHTLEFT if (right_left) pum_width = pum_col - pum_scrollbar + 1; else #endif pum_width = Columns - pum_col - pum_scrollbar; if (pum_width < p_pw) { pum_width = p_pw; #ifdef FEAT_RIGHTLEFT if (right_left) { if (pum_width > pum_col) pum_width = pum_col; } else #endif { if (pum_width >= Columns - pum_col) pum_width = Columns - pum_col - 1; } } else if (pum_width > max_width + pum_kind_width + pum_extra_width + 1 && pum_width > p_pw) { pum_width = max_width + pum_kind_width + pum_extra_width + 1; if (pum_width < p_pw) pum_width = p_pw; } } } else if (Columns < def_width) { // not enough room, will use what we have #ifdef FEAT_RIGHTLEFT if (right_left) pum_col = Columns - 1; else #endif pum_col = 0; pum_width = Columns - 1; } else { if (max_width > p_pw) max_width = p_pw; // truncate #ifdef FEAT_RIGHTLEFT if (right_left) pum_col = max_width - 1; else #endif pum_col = Columns - max_width; pum_width = max_width - pum_scrollbar; } // Set selected item and redraw. If the window size changed need to // redo the positioning. Limit this to two times, when there is not // much room the window size will keep changing. } while (pum_set_selected(selected, redo_count) && ++redo_count <= 2); pum_redraw(); } /* * Set a flag that when pum_redraw() is called it first calls update_screen(). * This will avoid clearing and redrawing the popup menu, prevent flicker. */ void pum_call_update_screen(void) { call_update_screen = TRUE; // Update the cursor position to be able to compute the popup menu // position. The cursor line length may have changed because of the // inserted completion. curwin->w_valid &= ~(VALID_CROW|VALID_CHEIGHT); validate_cursor(); } /* * Return TRUE if we are going to redraw the popup menu and the screen position * "row"/"col" is under the popup menu. */ int pum_under_menu(int row, int col, int only_redrawing) { return (!only_redrawing || pum_will_redraw) && row >= pum_row && row < pum_row + pum_height && col >= pum_col - 1 && col < pum_col + pum_width + pum_scrollbar; } /* * Redraw the popup menu, using "pum_first" and "pum_selected". */ void pum_redraw(void) { int row = pum_row; int col; int attr_scroll = highlight_attr[HLF_PSB]; int attr_thumb = highlight_attr[HLF_PST]; int attr; int *attrs; // array used for highlights int i; int idx; char_u *s; char_u *p = NULL; int totwidth, width, w; int thumb_pos = 0; int thumb_height = 1; int round; int n; int attrsNorm[3]; int attrsSel[3]; // "word" attrsNorm[0] = highlight_attr[HLF_PNI]; attrsSel[0] = highlight_attr[HLF_PSI]; // "kind" attrsNorm[1] = highlight_attr[HLF_PNK]; attrsSel[1] = highlight_attr[HLF_PSK]; // "extra text" attrsNorm[2] = highlight_attr[HLF_PNX]; attrsSel[2] = highlight_attr[HLF_PSX]; if (call_update_screen) { call_update_screen = FALSE; // Do not redraw in pum_may_redraw() and don't draw in the area where // the popup menu will be. pum_will_redraw = TRUE; update_screen(0); pum_will_redraw = FALSE; } // never display more than we have if (pum_first > pum_size - pum_height) pum_first = pum_size - pum_height; if (pum_scrollbar) { thumb_height = pum_height * pum_height / pum_size; if (thumb_height == 0) thumb_height = 1; thumb_pos = (pum_first * (pum_height - thumb_height) + (pum_size - pum_height) / 2) / (pum_size - pum_height); } #ifdef FEAT_PROP_POPUP // The popup menu is drawn over popup menus with zindex under // POPUPMENU_ZINDEX. screen_zindex = POPUPMENU_ZINDEX; #endif for (i = 0; i < pum_height; ++i) { idx = i + pum_first; attrs = (idx == pum_selected) ? attrsSel : attrsNorm; attr = attrs[0]; // start with "word" highlight // prepend a space if there is room #ifdef FEAT_RIGHTLEFT if (curwin->w_p_rl) { if (pum_col < curwin->w_wincol + curwin->w_width - 1) screen_putchar(' ', row, pum_col + 1, attr); } else #endif if (pum_col > 0) screen_putchar(' ', row, pum_col - 1, attr); // Display each entry, use two spaces for a Tab. // Do this 3 times: // 0 - main text // 1 - kind // 2 - extra info col = pum_col; totwidth = 0; for (round = 0; round < 3; ++round) { attr = attrs[round]; width = 0; s = NULL; switch (round) { case 0: p = pum_array[idx].pum_text; break; case 1: p = pum_array[idx].pum_kind; break; case 2: p = pum_array[idx].pum_extra; break; } if (p != NULL) for ( ; ; MB_PTR_ADV(p)) { if (s == NULL) s = p; w = ptr2cells(p); if (*p == NUL || *p == TAB || totwidth + w > pum_width) { // Display the text that fits or comes before a Tab. // First convert it to printable characters. char_u *st; int saved = *p; if (saved != NUL) *p = NUL; st = transstr(s); if (saved != NUL) *p = saved; #ifdef FEAT_RIGHTLEFT if (curwin->w_p_rl) { if (st != NULL) { char_u *rt = reverse_text(st); if (rt != NULL) { char_u *rt_start = rt; int size; size = vim_strsize(rt); if (size > pum_width) { do { size -= has_mbyte ? (*mb_ptr2cells)(rt) : 1; MB_PTR_ADV(rt); } while (size > pum_width); if (size < pum_width) { // Most left character requires // 2-cells but only 1 cell is // available on screen. Put a // '<' on the left of the pum // item *(--rt) = '<'; size++; } } screen_puts_len(rt, (int)STRLEN(rt), row, col - size + 1, attr); vim_free(rt_start); } vim_free(st); } col -= width; } else #endif { if (st != NULL) { int size = (int)STRLEN(st); int cells = (*mb_string2cells)(st, size); // only draw the text that fits while (size > 0 && col + cells > pum_width + pum_col) { --size; if (has_mbyte) { size -= (*mb_head_off)(st, st + size); cells -= (*mb_ptr2cells)(st + size); } else --cells; } screen_puts_len(st, size, row, col, attr); vim_free(st); } col += width; } if (*p != TAB) break; // Display two spaces for a Tab. #ifdef FEAT_RIGHTLEFT if (curwin->w_p_rl) { screen_puts_len((char_u *)" ", 2, row, col - 1, attr); col -= 2; } else #endif { screen_puts_len((char_u *)" ", 2, row, col, attr); col += 2; } totwidth += 2; s = NULL; // start text at next char width = 0; } else width += w; } if (round > 0) n = pum_kind_width + 1; else n = 1; // Stop when there is nothing more to display. if (round == 2 || (round == 1 && pum_array[idx].pum_extra == NULL) || (round == 0 && pum_array[idx].pum_kind == NULL && pum_array[idx].pum_extra == NULL) || pum_base_width + n >= pum_width) break; #ifdef FEAT_RIGHTLEFT if (curwin->w_p_rl) { screen_fill(row, row + 1, pum_col - pum_base_width - n + 1, col + 1, ' ', ' ', attr); col = pum_col - pum_base_width - n + 1; } else #endif { screen_fill(row, row + 1, col, pum_col + pum_base_width + n, ' ', ' ', attr); col = pum_col + pum_base_width + n; } totwidth = pum_base_width + n; } #ifdef FEAT_RIGHTLEFT if (curwin->w_p_rl) screen_fill(row, row + 1, pum_col - pum_width + 1, col + 1, ' ', ' ', attr); else #endif screen_fill(row, row + 1, col, pum_col + pum_width, ' ', ' ', attr); if (pum_scrollbar > 0) { #ifdef FEAT_RIGHTLEFT if (curwin->w_p_rl) screen_putchar(' ', row, pum_col - pum_width, i >= thumb_pos && i < thumb_pos + thumb_height ? attr_thumb : attr_scroll); else #endif screen_putchar(' ', row, pum_col + pum_width, i >= thumb_pos && i < thumb_pos + thumb_height ? attr_thumb : attr_scroll); } ++row; } #ifdef FEAT_PROP_POPUP screen_zindex = 0; #endif } #if (defined(FEAT_PROP_POPUP) && defined(FEAT_QUICKFIX)) || defined(PROTO) /* * Position the info popup relative to the popup menu item. */ void pum_position_info_popup(win_T *wp) { int col = pum_col + pum_width + pum_scrollbar + 1; int row = pum_row; int botpos = POPPOS_BOTLEFT; int used_maxwidth_opt = FALSE; wp->w_popup_pos = POPPOS_TOPLEFT; if (Columns - col < 20 && Columns - col < pum_col) { col = pum_col - 1; wp->w_popup_pos = POPPOS_TOPRIGHT; botpos = POPPOS_BOTRIGHT; wp->w_maxwidth = pum_col - 1; } else wp->w_maxwidth = Columns - col + 1; wp->w_maxwidth -= popup_extra_width(wp); if (wp->w_maxwidth_opt > 0 && wp->w_maxwidth > wp->w_maxwidth_opt) { // option value overrules computed value wp->w_maxwidth = wp->w_maxwidth_opt; used_maxwidth_opt = TRUE; } row -= popup_top_extra(wp); if (wp->w_popup_flags & POPF_INFO_MENU) { if (pum_row < pum_win_row) { // menu above cursor line, align with bottom row += pum_height; wp->w_popup_pos = botpos; } else // menu below cursor line, align with top row += 1; } else // align with the selected item row += pum_selected - pum_first + 1; wp->w_popup_flags &= ~POPF_HIDDEN; if (wp->w_maxwidth < 10 && !used_maxwidth_opt) // The popup is not going to fit or will overlap with the cursor // position, hide the popup. wp->w_popup_flags |= POPF_HIDDEN; else popup_set_wantpos_rowcol(wp, row, col); } #endif /* * Set the index of the currently selected item. The menu will scroll when * necessary. When "n" is out of range don't scroll. * This may be repeated when the preview window is used: * "repeat" == 0: open preview window normally * "repeat" == 1: open preview window but don't set the size * "repeat" == 2: don't open preview window * Returns TRUE when the window was resized and the location of the popup menu * must be recomputed. */ static int pum_set_selected(int n, int repeat UNUSED) { int resized = FALSE; int context = pum_height / 2; #ifdef FEAT_QUICKFIX int prev_selected = pum_selected; #endif #if defined(FEAT_PROP_POPUP) && defined(FEAT_QUICKFIX) int has_info = FALSE; #endif pum_selected = n; if (pum_selected >= 0 && pum_selected < pum_size) { if (pum_first > pum_selected - 4) { // scroll down; when we did a jump it's probably a PageUp then // scroll a whole page if (pum_first > pum_selected - 2) { pum_first -= pum_height - 2; if (pum_first < 0) pum_first = 0; else if (pum_first > pum_selected) pum_first = pum_selected; } else pum_first = pum_selected; } else if (pum_first < pum_selected - pum_height + 5) { // scroll up; when we did a jump it's probably a PageDown then // scroll a whole page if (pum_first < pum_selected - pum_height + 1 + 2) { pum_first += pum_height - 2; if (pum_first < pum_selected - pum_height + 1) pum_first = pum_selected - pum_height + 1; } else pum_first = pum_selected - pum_height + 1; } // Give a few lines of context when possible. if (context > 3) context = 3; if (pum_height > 2) { if (pum_first > pum_selected - context) { // scroll down pum_first = pum_selected - context; if (pum_first < 0) pum_first = 0; } else if (pum_first < pum_selected + context - pum_height + 1) { // scroll up pum_first = pum_selected + context - pum_height + 1; } } // adjust for the number of lines displayed if (pum_first > pum_size - pum_height) pum_first = pum_size - pum_height; #if defined(FEAT_QUICKFIX) /* * Show extra info in the preview window if there is something and * 'completeopt' contains "preview" or "popup" or "popuphidden". * Skip this when tried twice already. * Skip this also when there is not much room. * NOTE: Be very careful not to sync undo! */ if (pum_array[pum_selected].pum_info != NULL && Rows > 10 && repeat <= 1 && vim_strchr(p_cot, 'p') != NULL) { win_T *curwin_save = curwin; tabpage_T *curtab_save = curtab; int res = OK; # ifdef FEAT_PROP_POPUP use_popup_T use_popup; # else # define use_popup USEPOPUP_NONE # endif # ifdef FEAT_PROP_POPUP has_info = TRUE; if (strstr((char *)p_cot, "popuphidden") != NULL) use_popup = USEPOPUP_HIDDEN; else if (strstr((char *)p_cot, "popup") != NULL) use_popup = USEPOPUP_NORMAL; else use_popup = USEPOPUP_NONE; if (use_popup != USEPOPUP_NONE) // don't use WinEnter or WinLeave autocommands for the info // popup block_autocmds(); # endif // Open a preview window and set "curwin" to it. // 3 lines by default, prefer 'previewheight' if set and smaller. g_do_tagpreview = 3; if (p_pvh > 0 && p_pvh < g_do_tagpreview) g_do_tagpreview = p_pvh; ++RedrawingDisabled; // Prevent undo sync here, if an autocommand syncs undo weird // things can happen to the undo tree. ++no_u_sync; resized = prepare_tagpreview(FALSE, FALSE, use_popup); --no_u_sync; --RedrawingDisabled; g_do_tagpreview = 0; if (curwin->w_p_pvw # ifdef FEAT_PROP_POPUP || (curwin->w_popup_flags & POPF_INFO) # endif ) { if (!resized && curbuf->b_nwindows == 1 && curbuf->b_fname == NULL && bt_nofile(curbuf) && curbuf->b_p_bh[0] == 'w') { // Already a "wipeout" buffer, make it empty. while (!BUFEMPTY()) ml_delete((linenr_T)1); } else { // Don't want to sync undo in the current buffer. ++no_u_sync; res = do_ecmd(0, NULL, NULL, NULL, ECMD_ONE, 0, NULL); --no_u_sync; if (res == OK) { // Edit a new, empty buffer. Set options for a "wipeout" // buffer. set_option_value_give_err((char_u *)"swf", 0L, NULL, OPT_LOCAL); set_option_value_give_err((char_u *)"bl", 0L, NULL, OPT_LOCAL); set_option_value_give_err((char_u *)"bt", 0L, (char_u *)"nofile", OPT_LOCAL); set_option_value_give_err((char_u *)"bh", 0L, (char_u *)"wipe", OPT_LOCAL); set_option_value_give_err((char_u *)"diff", 0L, NULL, OPT_LOCAL); } } if (res == OK) { char_u *p, *e; linenr_T lnum = 0; for (p = pum_array[pum_selected].pum_info; *p != NUL; ) { e = vim_strchr(p, '\n'); if (e == NULL) { ml_append(lnum++, p, 0, FALSE); break; } else { *e = NUL; ml_append(lnum++, p, (int)(e - p + 1), FALSE); *e = '\n'; p = e + 1; } } // delete the empty last line ml_delete(curbuf->b_ml.ml_line_count); // Increase the height of the preview window to show the // text, but no more than 'previewheight' lines. if (repeat == 0 && use_popup == USEPOPUP_NONE) { if (lnum > p_pvh) lnum = p_pvh; if (curwin->w_height < lnum) { win_setheight((int)lnum); resized = TRUE; } } curbuf->b_changed = 0; curbuf->b_p_ma = FALSE; if (pum_selected != prev_selected) { # ifdef FEAT_PROP_POPUP curwin->w_firstline = 1; # endif curwin->w_topline = 1; } else if (curwin->w_topline > curbuf->b_ml.ml_line_count) curwin->w_topline = curbuf->b_ml.ml_line_count; curwin->w_cursor.lnum = curwin->w_topline; curwin->w_cursor.col = 0; # ifdef FEAT_PROP_POPUP if (use_popup != USEPOPUP_NONE) { pum_position_info_popup(curwin); if (win_valid(curwin_save)) redraw_win_later(curwin_save, UPD_SOME_VALID); } # endif if ((curwin != curwin_save && win_valid(curwin_save)) || (curtab != curtab_save && valid_tabpage(curtab_save))) { int save_redr_status; if (curtab != curtab_save && valid_tabpage(curtab_save)) goto_tabpage_tp(curtab_save, FALSE, FALSE); // When the first completion is done and the preview // window is not resized, skip the preview window's // status line redrawing. if (ins_compl_active() && !resized) curwin->w_redr_status = FALSE; // Return cursor to where we were validate_cursor(); redraw_later(UPD_SOME_VALID); // When the preview window was resized we need to // update the view on the buffer. Only go back to // the window when needed, otherwise it will always be // redrawn. if (resized && win_valid(curwin_save)) { ++no_u_sync; win_enter(curwin_save, TRUE); --no_u_sync; update_topline(); } // Update the screen before drawing the popup menu. // Enable updating the status lines. pum_pretend_not_visible = TRUE; // But don't draw text at the new popup menu position, // it causes flicker. When resizing we need to draw // anyway, the position may change later. // Also do not redraw the status line of the original // current window here, to avoid it gets drawn with // StatusLineNC for a moment and cause flicker. pum_will_redraw = !resized; save_redr_status = curwin_save->w_redr_status; curwin_save->w_redr_status = FALSE; update_screen(0); pum_pretend_not_visible = FALSE; pum_will_redraw = FALSE; curwin_save->w_redr_status = save_redr_status; if (!resized && win_valid(curwin_save)) { # ifdef FEAT_PROP_POPUP win_T *wp = curwin; # endif ++no_u_sync; win_enter(curwin_save, TRUE); --no_u_sync; # ifdef FEAT_PROP_POPUP if (use_popup == USEPOPUP_HIDDEN && win_valid(wp)) popup_hide(wp); # endif } // May need to update the screen again when there are // autocommands involved. pum_pretend_not_visible = TRUE; pum_will_redraw = !resized; update_screen(0); pum_pretend_not_visible = FALSE; pum_will_redraw = FALSE; call_update_screen = FALSE; } } } # if defined(FEAT_PROP_POPUP) && defined(FEAT_QUICKFIX) if (WIN_IS_POPUP(curwin)) // can't keep focus in a popup window win_enter(firstwin, TRUE); # endif # ifdef FEAT_PROP_POPUP if (use_popup != USEPOPUP_NONE) unblock_autocmds(); # endif } #endif } #if defined(FEAT_PROP_POPUP) && defined(FEAT_QUICKFIX) if (!has_info) // hide any popup info window popup_hide_info(); #endif return resized; } /* * Undisplay the popup menu (later). */ void pum_undisplay(void) { pum_array = NULL; redraw_all_later(UPD_NOT_VALID); redraw_tabline = TRUE; status_redraw_all(); #if defined(FEAT_PROP_POPUP) && defined(FEAT_QUICKFIX) // hide any popup info window popup_hide_info(); #endif } /* * Clear the popup menu. Currently only resets the offset to the first * displayed item. */ void pum_clear(void) { pum_first = 0; } /* * Return TRUE if the popup menu is displayed. Used to avoid some redrawing * that could overwrite it. Overruled when "pum_pretend_not_visible" is set, * used to redraw the status lines. */ int pum_visible(void) { return !pum_pretend_not_visible && pum_array != NULL; } /* * Return TRUE if the popup can be redrawn in the same position. */ static int pum_in_same_position(void) { return pum_window != curwin || (pum_win_row == curwin->w_wrow + W_WINROW(curwin) && pum_win_height == curwin->w_height && pum_win_col == curwin->w_wincol && pum_win_width == curwin->w_width); } /* * Return TRUE when pum_may_redraw() will call pum_redraw(). * This means that the pum area should not be overwritten to avoid flicker. */ int pum_redraw_in_same_position(void) { if (!pum_visible() || pum_will_redraw) return FALSE; // nothing to do return pum_in_same_position(); } /* * Reposition the popup menu to adjust for window layout changes. */ void pum_may_redraw(void) { pumitem_T *array = pum_array; int len = pum_size; int selected = pum_selected; if (!pum_visible() || pum_will_redraw) return; // nothing to do if (pum_in_same_position()) { // window position didn't change, redraw in the same position pum_redraw(); } else { int wcol = curwin->w_wcol; // Window layout changed, recompute the position. // Use the remembered w_wcol value, the cursor may have moved when a // completion was inserted, but we want the menu in the same position. pum_undisplay(); curwin->w_wcol = pum_win_wcol; curwin->w_valid |= VALID_WCOL; pum_display(array, len, selected); curwin->w_wcol = wcol; } } /* * Return the height of the popup menu, the number of entries visible. * Only valid when pum_visible() returns TRUE! */ int pum_get_height(void) { return pum_height; } #if defined(FEAT_EVAL) || defined(PROTO) /* * Add size information about the pum to "dict". */ void pum_set_event_info(dict_T *dict) { if (!pum_visible()) return; (void)dict_add_number(dict, "height", pum_height); (void)dict_add_number(dict, "width", pum_width); (void)dict_add_number(dict, "row", pum_row); (void)dict_add_number(dict, "col", pum_col); (void)dict_add_number(dict, "size", pum_size); (void)dict_add_bool(dict, "scrollbar", pum_scrollbar ? VVAL_TRUE : VVAL_FALSE); } #endif #if defined(FEAT_BEVAL_TERM) || defined(FEAT_TERM_POPUP_MENU) || defined(PROTO) static void pum_position_at_mouse(int min_width) { if (Rows - mouse_row > pum_size) { // Enough space below the mouse row. pum_row = mouse_row + 1; if (pum_height > Rows - pum_row) pum_height = Rows - pum_row; } else { // Show above the mouse row, reduce height if it does not fit. pum_row = mouse_row - pum_size; if (pum_row < 0) { pum_height += pum_row; pum_row = 0; } } if (Columns - mouse_col >= pum_base_width || Columns - mouse_col > min_width) // Enough space to show at mouse column. pum_col = mouse_col; else // Not enough space, right align with window. pum_col = Columns - (pum_base_width > min_width ? min_width : pum_base_width); pum_width = Columns - pum_col; if (pum_width > pum_base_width + 1) pum_width = pum_base_width + 1; // Do not redraw at cursor position. pum_window = NULL; } #endif #if defined(FEAT_BEVAL_TERM) || defined(PROTO) static pumitem_T *balloon_array = NULL; static int balloon_arraysize; # define BALLOON_MIN_WIDTH 50 # define BALLOON_MIN_HEIGHT 10 typedef struct { char_u *start; int bytelen; int cells; int indent; } balpart_T; /* * Split a string into parts to display in the balloon. * Aimed at output from gdb. Attempts to split at white space, preserve quoted * strings and make a struct look good. * Resulting array is stored in "array" and returns the size of the array. */ int split_message(char_u *mesg, pumitem_T **array) { garray_T ga; char_u *p; balpart_T *item; int quoted = FALSE; int height; int line; int item_idx; int indent = 0; int max_cells = 0; int max_height = Rows / 2 - 1; int long_item_count = 0; int split_long_items = FALSE; ga_init2(&ga, sizeof(balpart_T), 20); p = mesg; while (*p != NUL) { if (ga_grow(&ga, 1) == FAIL) goto failed; item = ((balpart_T *)ga.ga_data) + ga.ga_len; item->start = p; item->indent = indent; item->cells = indent * 2; ++ga.ga_len; while (*p != NUL) { if (*p == '"') quoted = !quoted; else if (*p == '\n') break; else if (*p == '\\' && p[1] != NUL) ++p; else if (!quoted) { if ((*p == ',' && p[1] == ' ') || *p == '{' || *p == '}') { // Looks like a good point to break. if (*p == '{') ++indent; else if (*p == '}' && indent > 0) --indent; ++item->cells; p = skipwhite(p + 1); break; } } item->cells += ptr2cells(p); p += mb_ptr2len(p); } item->bytelen = p - item->start; if (*p == '\n') ++p; if (item->cells > max_cells) max_cells = item->cells; long_item_count += (item->cells - 1) / BALLOON_MIN_WIDTH; } height = 2 + ga.ga_len; // If there are long items and the height is below the limit: split lines if (long_item_count > 0 && height + long_item_count <= max_height) { split_long_items = TRUE; height += long_item_count; } // Limit to half the window height, it has to fit above or below the mouse // position. if (height > max_height) height = max_height; *array = ALLOC_CLEAR_MULT(pumitem_T, height); if (*array == NULL) goto failed; // Add an empty line above and below, looks better. (*array)->pum_text = vim_strsave((char_u *)""); (*array + height - 1)->pum_text = vim_strsave((char_u *)""); for (line = 1, item_idx = 0; line < height - 1; ++item_idx) { int skip; int thislen; int copylen; int ind; int cells; item = ((balpart_T *)ga.ga_data) + item_idx; if (item->bytelen == 0) (*array)[line++].pum_text = vim_strsave((char_u *)""); else for (skip = 0; skip < item->bytelen; skip += thislen) { if (split_long_items && item->cells >= BALLOON_MIN_WIDTH) { cells = item->indent * 2; for (p = item->start + skip; p < item->start + item->bytelen; p += mb_ptr2len(p)) if ((cells += ptr2cells(p)) > BALLOON_MIN_WIDTH) break; thislen = p - (item->start + skip); } else thislen = item->bytelen; // put indent at the start p = alloc(thislen + item->indent * 2 + 1); if (p == NULL) { for (line = 0; line <= height - 1; ++line) vim_free((*array)[line].pum_text); vim_free(*array); goto failed; } for (ind = 0; ind < item->indent * 2; ++ind) p[ind] = ' '; // exclude spaces at the end of the string for (copylen = thislen; copylen > 0; --copylen) if (item->start[skip + copylen - 1] != ' ') break; vim_strncpy(p + ind, item->start + skip, copylen); (*array)[line].pum_text = p; item->indent = 0; // wrapped line has no indent ++line; } } ga_clear(&ga); return height; failed: ga_clear(&ga); return 0; } void ui_remove_balloon(void) { if (balloon_array == NULL) return; pum_undisplay(); while (balloon_arraysize > 0) vim_free(balloon_array[--balloon_arraysize].pum_text); VIM_CLEAR(balloon_array); } /* * Terminal version of a balloon, uses the popup menu code. */ void ui_post_balloon(char_u *mesg, list_T *list) { ui_remove_balloon(); if (mesg == NULL && list == NULL) { pum_undisplay(); return; } if (list != NULL) { listitem_T *li; int idx; balloon_arraysize = list->lv_len; balloon_array = ALLOC_CLEAR_MULT(pumitem_T, list->lv_len); if (balloon_array == NULL) return; CHECK_LIST_MATERIALIZE(list); for (idx = 0, li = list->lv_first; li != NULL; li = li->li_next, ++idx) { char_u *text = tv_get_string_chk(&li->li_tv); balloon_array[idx].pum_text = vim_strsave( text == NULL ? (char_u *)"" : text); } } else balloon_arraysize = split_message(mesg, &balloon_array); if (balloon_arraysize <= 0) return; pum_array = balloon_array; pum_size = balloon_arraysize; pum_compute_size(); pum_scrollbar = 0; pum_height = balloon_arraysize; pum_position_at_mouse(BALLOON_MIN_WIDTH); pum_selected = -1; pum_first = 0; pum_redraw(); } /* * Called when the mouse moved, may remove any displayed balloon. */ void ui_may_remove_balloon(void) { // For now: remove the balloon whenever the mouse moves to another screen // cell. ui_remove_balloon(); } #endif #if defined(FEAT_TERM_POPUP_MENU) || defined(PROTO) /* * Select the pum entry at the mouse position. */ static void pum_select_mouse_pos(void) { int idx = mouse_row - pum_row; if (idx < 0 || idx >= pum_size) pum_selected = -1; else if (*pum_array[idx].pum_text != NUL) pum_selected = idx; } /* * Execute the currently selected popup menu item. */ static void pum_execute_menu(vimmenu_T *menu, int mode) { vimmenu_T *mp; int idx = 0; exarg_T ea; FOR_ALL_CHILD_MENUS(menu, mp) if ((mp->modes & mp->enabled & mode) && idx++ == pum_selected) { CLEAR_FIELD(ea); execute_menu(&ea, mp, -1); break; } } /* * Open the terminal version of the popup menu and don't return until it is * closed. */ void pum_show_popupmenu(vimmenu_T *menu) { vimmenu_T *mp; int idx = 0; pumitem_T *array; # ifdef FEAT_BEVAL_TERM int save_bevalterm = p_bevalterm; # endif int mode; pum_undisplay(); pum_size = 0; mode = get_menu_mode_flag(); FOR_ALL_CHILD_MENUS(menu, mp) if (menu_is_separator(mp->dname) || (mp->modes & mp->enabled & mode)) ++pum_size; // When there are only Terminal mode menus, using "popup Edit" results in // pum_size being zero. if (pum_size <= 0) { emsg(e_menu_only_exists_in_another_mode); return; } array = ALLOC_CLEAR_MULT(pumitem_T, pum_size); if (array == NULL) return; FOR_ALL_CHILD_MENUS(menu, mp) { char_u *s = NULL; // Make a copy of the text, the menu may be redefined in a callback. if (menu_is_separator(mp->dname)) s = (char_u *)""; else if (mp->modes & mp->enabled & mode) s = mp->dname; if (s != NULL) { s = vim_strsave(s); if (s != NULL) array[idx++].pum_text = s; } } pum_array = array; pum_compute_size(); pum_scrollbar = 0; pum_height = pum_size; pum_position_at_mouse(20); pum_selected = -1; pum_first = 0; # ifdef FEAT_BEVAL_TERM p_bevalterm = TRUE; // track mouse movement mch_setmouse(TRUE); # endif for (;;) { int c; pum_redraw(); setcursor_mayforce(TRUE); out_flush(); c = vgetc(); // Bail out when typing Esc, CTRL-C or some callback or <expr> mapping // closed the popup menu. if (c == ESC || c == Ctrl_C || pum_array == NULL) break; else if (c == CAR || c == NL) { // enter: select current item, if any, and close pum_execute_menu(menu, mode); break; } else if (c == 'k' || c == K_UP || c == K_MOUSEUP) { // cursor up: select previous item while (pum_selected > 0) { --pum_selected; if (*array[pum_selected].pum_text != NUL) break; } } else if (c == 'j' || c == K_DOWN || c == K_MOUSEDOWN) { // cursor down: select next item while (pum_selected < pum_size - 1) { ++pum_selected; if (*array[pum_selected].pum_text != NUL) break; } } else if (c == K_RIGHTMOUSE) { // Right mouse down: reposition the menu. vungetc(c); break; } else if (c == K_LEFTDRAG || c == K_RIGHTDRAG || c == K_MOUSEMOVE) { // mouse moved: select item in the mouse row pum_select_mouse_pos(); } else if (c == K_LEFTMOUSE || c == K_LEFTMOUSE_NM || c == K_RIGHTRELEASE) { // left mouse click: select clicked item, if any, and close; // right mouse release: select clicked item, close if any pum_select_mouse_pos(); if (pum_selected >= 0) { pum_execute_menu(menu, mode); break; } if (c == K_LEFTMOUSE || c == K_LEFTMOUSE_NM) break; } } for (idx = 0; idx < pum_size; ++idx) vim_free(array[idx].pum_text); vim_free(array); pum_undisplay(); # ifdef FEAT_BEVAL_TERM p_bevalterm = save_bevalterm; mch_setmouse(TRUE); # endif } void pum_make_popup(char_u *path_name, int use_mouse_pos) { vimmenu_T *menu; if (!use_mouse_pos) { // Hack: set mouse position at the cursor so that the menu pops up // around there. mouse_row = curwin->w_winrow + curwin->w_wrow; mouse_col = curwin->w_wincol + curwin->w_wcol; } menu = gui_find_menu(path_name); if (menu != NULL) pum_show_popupmenu(menu); } #endif