/* $Id$ */ /************************************************************************** * prompt.c * * * * Copyright (C) 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007 * * Free Software Foundation, Inc. * * This program 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; either version 3, or (at your option) * * any later version. * * * * This program 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, write to the Free Software * * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA * * 02110-1301, USA. * * * **************************************************************************/ #include "proto.h" #include #include #include static char *prompt = NULL; /* The prompt string used for statusbar questions. */ static size_t statusbar_x = (size_t)-1; /* The cursor position in answer. */ static size_t statusbar_pww = (size_t)-1; /* The place we want in answer. */ static size_t old_statusbar_x = (size_t)-1; /* The old cursor position in answer, if any. */ static size_t old_pww = (size_t)-1; /* The old place we want in answer, if any. */ static bool reset_statusbar_x = FALSE; /* Should we reset the cursor position at the statusbar * prompt? */ /* Read in a character, interpret it as a shortcut or toggle if * necessary, and return it. Set meta_key to TRUE if the character is a * meta sequence, set func_key to TRUE if the character is a function * key, set have_shortcut to TRUE if the character is a shortcut * key, set ran_func to TRUE if we ran a function associated with a * shortcut key, and set finished to TRUE if we're done after running * or trying to run a function associated with a shortcut key. If * allow_funcs is FALSE, don't actually run any functions associated * with shortcut keys. refresh_func is the function we will call to * refresh the edit window. */ int do_statusbar_input(bool *meta_key, bool *func_key, bool *have_shortcut, bool *ran_func, bool *finished, bool allow_funcs, void (*refresh_func)(void)) { int input; /* The character we read in. */ static int *kbinput = NULL; /* The input buffer. */ static size_t kbinput_len = 0; /* The length of the input buffer. */ const sc *s; const subnfunc *f; *have_shortcut = FALSE; *ran_func = FALSE; *finished = FALSE; /* Read in a character. */ input = get_kbinput(bottomwin, meta_key, func_key); #ifndef DISABLE_MOUSE if (allow_funcs) { /* If we got a mouse click and it was on a shortcut, read in the * shortcut character. */ if (*func_key && input == KEY_MOUSE) { if (do_statusbar_mouse() == 1) input = get_kbinput(bottomwin, meta_key, func_key); else { *meta_key = FALSE; *func_key = FALSE; input = ERR; } } } #endif /* Check for a shortcut in the current list. */ s = get_shortcut(currmenu, &input, meta_key, func_key); /* If we got a shortcut from the current list, or a "universal" * statusbar prompt shortcut, set have_shortcut to TRUE. */ *have_shortcut = (s != NULL); /* If we got a non-high-bit control key, a meta key sequence, or a * function key, and it's not a shortcut or toggle, throw it out. */ if (!*have_shortcut) { if (is_ascii_cntrl_char(input) || *meta_key || *func_key) { beep(); *meta_key = FALSE; *func_key = FALSE; input = ERR; } } if (allow_funcs) { /* If we got a character, and it isn't a shortcut or toggle, * it's a normal text character. Display the warning if we're * in view mode, or add the character to the input buffer if * we're not. */ if (input != ERR && !*have_shortcut) { /* If we're using restricted mode, the filename isn't blank, * and we're at the "Write File" prompt, disable text * input. */ if (!ISSET(RESTRICTED) || openfile->filename[0] == '\0' || currmenu != MWRITEFILE) { kbinput_len++; kbinput = (int *)nrealloc(kbinput, kbinput_len * sizeof(int)); kbinput[kbinput_len - 1] = input; } } /* If we got a shortcut, or if there aren't any other characters * waiting after the one we read in, we need to display all the * characters in the input buffer if it isn't empty. */ if (*have_shortcut || get_key_buffer_len() == 0) { if (kbinput != NULL) { /* Display all the characters in the input buffer at * once, filtering out control characters. */ char *output = charalloc(kbinput_len + 1); size_t i; bool got_enter; /* Whether we got the Enter key. */ for (i = 0; i < kbinput_len; i++) output[i] = (char)kbinput[i]; output[i] = '\0'; do_statusbar_output(output, kbinput_len, &got_enter, FALSE); free(output); /* Empty the input buffer. */ kbinput_len = 0; free(kbinput); kbinput = NULL; } } if (*have_shortcut) { if (s->scfunc == do_tab || s->scfunc == do_enter) ; else if (s->scfunc == total_refresh) total_statusbar_refresh(refresh_func); else if (s->scfunc == (void *) do_cut_text) { /* If we're using restricted mode, the filename * isn't blank, and we're at the "Write File" * prompt, disable Cut. */ if (!ISSET(RESTRICTED) || openfile->filename[0] == '\0' || currmenu != MWRITEFILE) do_statusbar_cut_text(); } else if (s->scfunc == do_right) do_statusbar_right(); else if (s->scfunc == do_left) do_statusbar_left(); #ifndef NANO_TINY else if (s->scfunc == (void *) do_next_word) do_statusbar_next_word(FALSE); else if (s->scfunc == (void *) do_prev_word) do_statusbar_prev_word(FALSE); #endif else if (s->scfunc == do_home) do_statusbar_home(); else if (s->scfunc == do_end) do_statusbar_end(); #ifndef NANO_TINY else if (s->scfunc == do_find_bracket) do_statusbar_find_bracket(); #endif else if (s->scfunc == do_verbatim_input) { /* If we're using restricted mode, the filename * isn't blank, and we're at the "Write File" * prompt, disable verbatim input. */ if (!ISSET(RESTRICTED) || openfile->filename[0] == '\0' || currmenu != MWRITEFILE) { bool got_enter; /* Whether we got the Enter key. */ do_statusbar_verbatim_input(&got_enter); /* If we got the Enter key, remove it from * the input buffer, set input to the key * value for Enter, and set finished to TRUE * to indicate that we're done. */ if (got_enter) { get_input(NULL, 1); input = sc_seq_or(do_enter, 0); *finished = TRUE; } } } else if (s->scfunc == do_delete) { /* If we're using restricted mode, the filename * isn't blank, and we're at the "Write File" * prompt, disable Delete. */ if (!ISSET(RESTRICTED) || openfile->filename[0] == '\0' || currmenu != MWRITEFILE) do_statusbar_delete(); } else if (s->scfunc == do_backspace) { /* If we're using restricted mode, the filename * isn't blank, and we're at the "Write File" * prompt, disable Backspace. */ if (!ISSET(RESTRICTED) || openfile->filename[0] == '\0' || currmenu != MWRITEFILE) do_statusbar_backspace(); } else { /* Handle the normal statusbar prompt shortcuts, setting * ran_func to TRUE if we try to run their associated * functions and setting finished to TRUE to indicate * that we're done after running or trying to run their * associated functions. */ f = sctofunc((sc *) s); if (s->scfunc != NULL && s->execute == TRUE) { *ran_func = TRUE; if (!ISSET(VIEW_MODE) || f->viewok) f->scfunc(); } *finished = TRUE; } } } return input; } #ifndef DISABLE_MOUSE /* Handle a mouse click on the statusbar prompt or the shortcut list. */ int do_statusbar_mouse(void) { int mouse_x, mouse_y; int retval = get_mouseinput(&mouse_x, &mouse_y, TRUE); /* We can click on the statusbar window text to move the cursor. */ if (retval == 0 && wmouse_trafo(bottomwin, &mouse_y, &mouse_x, FALSE)) { size_t start_col; assert(prompt != NULL); start_col = strlenpt(prompt) + 2; /* Move to where the click occurred. */ if (mouse_x >= start_col && mouse_y == 0) { size_t pww_save = statusbar_pww; statusbar_x = actual_x(answer, get_statusbar_page_start(start_col, start_col + statusbar_xplustabs()) + mouse_x - start_col); statusbar_pww = statusbar_xplustabs(); if (need_statusbar_horizontal_update(pww_save)) update_statusbar_line(answer, statusbar_x); } } return retval; } #endif /* The user typed output_len multibyte characters. Add them to the * statusbar prompt, setting got_enter to TRUE if we get a newline, and * filtering out all ASCII control characters if allow_cntrls is * TRUE. */ void do_statusbar_output(char *output, size_t output_len, bool *got_enter, bool allow_cntrls) { size_t answer_len, i = 0; char *char_buf = charalloc(mb_cur_max()); int char_buf_len; assert(answer != NULL); answer_len = strlen(answer); *got_enter = FALSE; while (i < output_len) { /* If allow_cntrls is TRUE, convert nulls and newlines * properly. */ if (allow_cntrls) { /* Null to newline, if needed. */ if (output[i] == '\0') output[i] = '\n'; /* Newline to Enter, if needed. */ else if (output[i] == '\n') { /* Set got_enter to TRUE to indicate that we got the * Enter key, put back the rest of the characters in * output so that they can be parsed and output again, * and get out. */ *got_enter = TRUE; unparse_kbinput(output + i, output_len - i); return; } } /* Interpret the next multibyte character. */ char_buf_len = parse_mbchar(output + i, char_buf, NULL); i += char_buf_len; /* If allow_cntrls is FALSE, filter out an ASCII control * character. */ if (!allow_cntrls && is_ascii_cntrl_char(*(output + i - char_buf_len))) continue; /* More dangerousness fun =) */ answer = charealloc(answer, answer_len + (char_buf_len * 2)); assert(statusbar_x <= answer_len); charmove(answer + statusbar_x + char_buf_len, answer + statusbar_x, answer_len - statusbar_x + char_buf_len); strncpy(answer + statusbar_x, char_buf, char_buf_len); answer_len += char_buf_len; statusbar_x += char_buf_len; } free(char_buf); statusbar_pww = statusbar_xplustabs(); update_statusbar_line(answer, statusbar_x); } /* Move to the beginning of the prompt text. If the SMART_HOME flag is * set, move to the first non-whitespace character of the prompt text if * we're not already there, or to the beginning of the prompt text if we * are. */ void do_statusbar_home(void) { size_t pww_save = statusbar_pww; #ifndef NANO_TINY if (ISSET(SMART_HOME)) { size_t statusbar_x_save = statusbar_x; statusbar_x = indent_length(answer); if (statusbar_x == statusbar_x_save || statusbar_x == strlen(answer)) statusbar_x = 0; statusbar_pww = statusbar_xplustabs(); } else { #endif statusbar_x = 0; statusbar_pww = statusbar_xplustabs(); #ifndef NANO_TINY } #endif if (need_statusbar_horizontal_update(pww_save)) update_statusbar_line(answer, statusbar_x); } /* Move to the end of the prompt text. */ void do_statusbar_end(void) { size_t pww_save = statusbar_pww; statusbar_x = strlen(answer); statusbar_pww = statusbar_xplustabs(); if (need_statusbar_horizontal_update(pww_save)) update_statusbar_line(answer, statusbar_x); } /* Move left one character. */ void do_statusbar_left(void) { if (statusbar_x > 0) { size_t pww_save = statusbar_pww; statusbar_x = move_mbleft(answer, statusbar_x); statusbar_pww = statusbar_xplustabs(); if (need_statusbar_horizontal_update(pww_save)) update_statusbar_line(answer, statusbar_x); } } /* Move right one character. */ void do_statusbar_right(void) { if (statusbar_x < strlen(answer)) { size_t pww_save = statusbar_pww; statusbar_x = move_mbright(answer, statusbar_x); statusbar_pww = statusbar_xplustabs(); if (need_statusbar_horizontal_update(pww_save)) update_statusbar_line(answer, statusbar_x); } } /* Backspace over one character. */ void do_statusbar_backspace(void) { if (statusbar_x > 0) { do_statusbar_left(); do_statusbar_delete(); } } /* Delete one character. */ void do_statusbar_delete(void) { statusbar_pww = statusbar_xplustabs(); if (answer[statusbar_x] != '\0') { int char_buf_len = parse_mbchar(answer + statusbar_x, NULL, NULL); size_t line_len = strlen(answer + statusbar_x); assert(statusbar_x < strlen(answer)); charmove(answer + statusbar_x, answer + statusbar_x + char_buf_len, strlen(answer) - statusbar_x - char_buf_len + 1); null_at(&answer, statusbar_x + line_len - char_buf_len); update_statusbar_line(answer, statusbar_x); } } /* Move text from the prompt into oblivion. */ void do_statusbar_cut_text(void) { assert(answer != NULL); #ifndef NANO_TINY if (ISSET(CUT_TO_END)) null_at(&answer, statusbar_x); else { #endif null_at(&answer, 0); statusbar_x = 0; statusbar_pww = statusbar_xplustabs(); #ifndef NANO_TINY } #endif update_statusbar_line(answer, statusbar_x); } #ifndef NANO_TINY /* Move to the next word in the prompt text. If allow_punct is TRUE, * treat punctuation as part of a word. Return TRUE if we started on a * word, and FALSE otherwise. */ bool do_statusbar_next_word(bool allow_punct) { size_t pww_save = statusbar_pww; char *char_mb; int char_mb_len; bool end_line = FALSE, started_on_word = FALSE; assert(answer != NULL); char_mb = charalloc(mb_cur_max()); /* Move forward until we find the character after the last letter of * the current word. */ while (!end_line) { char_mb_len = parse_mbchar(answer + statusbar_x, char_mb, NULL); /* If we've found it, stop moving forward through the current * line. */ if (!is_word_mbchar(char_mb, allow_punct)) break; /* If we haven't found it, then we've started on a word, so set * started_on_word to TRUE. */ started_on_word = TRUE; if (answer[statusbar_x] == '\0') end_line = TRUE; else statusbar_x += char_mb_len; } /* Move forward until we find the first letter of the next word. */ if (answer[statusbar_x] == '\0') end_line = TRUE; else statusbar_x += char_mb_len; while (!end_line) { char_mb_len = parse_mbchar(answer + statusbar_x, char_mb, NULL); /* If we've found it, stop moving forward through the current * line. */ if (is_word_mbchar(char_mb, allow_punct)) break; if (answer[statusbar_x] == '\0') end_line = TRUE; else statusbar_x += char_mb_len; } free(char_mb); statusbar_pww = statusbar_xplustabs(); if (need_statusbar_horizontal_update(pww_save)) update_statusbar_line(answer, statusbar_x); /* Return whether we started on a word. */ return started_on_word; } /* Move to the previous word in the prompt text. If allow_punct is * TRUE, treat punctuation as part of a word. Return TRUE if we started * on a word, and FALSE otherwise. */ bool do_statusbar_prev_word(bool allow_punct) { size_t pww_save = statusbar_pww; char *char_mb; int char_mb_len; bool begin_line = FALSE, started_on_word = FALSE; assert(answer != NULL); char_mb = charalloc(mb_cur_max()); /* Move backward until we find the character before the first letter * of the current word. */ while (!begin_line) { char_mb_len = parse_mbchar(answer + statusbar_x, char_mb, NULL); /* If we've found it, stop moving backward through the current * line. */ if (!is_word_mbchar(char_mb, allow_punct)) break; /* If we haven't found it, then we've started on a word, so set * started_on_word to TRUE. */ started_on_word = TRUE; if (statusbar_x == 0) begin_line = TRUE; else statusbar_x = move_mbleft(answer, statusbar_x); } /* Move backward until we find the last letter of the previous * word. */ if (statusbar_x == 0) begin_line = TRUE; else statusbar_x = move_mbleft(answer, statusbar_x); while (!begin_line) { char_mb_len = parse_mbchar(answer + statusbar_x, char_mb, NULL); /* If we've found it, stop moving backward through the current * line. */ if (is_word_mbchar(char_mb, allow_punct)) break; if (statusbar_x == 0) begin_line = TRUE; else statusbar_x = move_mbleft(answer, statusbar_x); } /* If we've found it, move backward until we find the character * before the first letter of the previous word. */ if (!begin_line) { if (statusbar_x == 0) begin_line = TRUE; else statusbar_x = move_mbleft(answer, statusbar_x); while (!begin_line) { char_mb_len = parse_mbchar(answer + statusbar_x, char_mb, NULL); /* If we've found it, stop moving backward through the * current line. */ if (!is_word_mbchar(char_mb, allow_punct)) break; if (statusbar_x == 0) begin_line = TRUE; else statusbar_x = move_mbleft(answer, statusbar_x); } /* If we've found it, move forward to the first letter of the * previous word. */ if (!begin_line) statusbar_x += char_mb_len; } free(char_mb); statusbar_pww = statusbar_xplustabs(); if (need_statusbar_horizontal_update(pww_save)) update_statusbar_line(answer, statusbar_x); /* Return whether we started on a word. */ return started_on_word; } #endif /* !NANO_TINY */ /* Get verbatim input. Set got_enter to TRUE if we got the Enter key as * part of the verbatim input. */ void do_statusbar_verbatim_input(bool *got_enter) { int *kbinput; size_t kbinput_len, i; char *output; *got_enter = FALSE; /* Read in all the verbatim characters. */ kbinput = get_verbatim_kbinput(bottomwin, &kbinput_len); /* Display all the verbatim characters at once, not filtering out * control characters. */ output = charalloc(kbinput_len + 1); for (i = 0; i < kbinput_len; i++) output[i] = (char)kbinput[i]; output[i] = '\0'; do_statusbar_output(output, kbinput_len, got_enter, TRUE); free(output); } #ifndef NANO_TINY /* Search for a match to one of the two characters in bracket_set. If * reverse is TRUE, search backwards for the leftmost bracket. * Otherwise, search forwards for the rightmost bracket. Return TRUE if * we found a match, and FALSE otherwise. */ bool find_statusbar_bracket_match(bool reverse, const char *bracket_set) { const char *rev_start = NULL, *found = NULL; assert(mbstrlen(bracket_set) == 2); /* rev_start might end up 1 character before the start or after the * end of the line. This won't be a problem because we'll skip over * it below in that case. */ rev_start = reverse ? answer + (statusbar_x - 1) : answer + (statusbar_x + 1); while (TRUE) { /* Look for either of the two characters in bracket_set. * rev_start can be 1 character before the start or after the * end of the line. In either case, just act as though no match * is found. */ found = ((rev_start > answer && *(rev_start - 1) == '\0') || rev_start < answer) ? NULL : (reverse ? mbrevstrpbrk(answer, bracket_set, rev_start) : mbstrpbrk(rev_start, bracket_set)); /* We've found a potential match. */ if (found != NULL) break; /* We've reached the start or end of the statusbar text, so * get out. */ return FALSE; } /* We've definitely found something. */ statusbar_x = found - answer; statusbar_pww = statusbar_xplustabs(); return TRUE; } /* Search for a match to the bracket at the current cursor position, if * there is one. */ void do_statusbar_find_bracket(void) { size_t statusbar_x_save, pww_save; const char *ch; /* The location in matchbrackets of the bracket at the current * cursor position. */ int ch_len; /* The length of ch in bytes. */ const char *wanted_ch; /* The location in matchbrackets of the bracket complementing * the bracket at the current cursor position. */ int wanted_ch_len; /* The length of wanted_ch in bytes. */ char *bracket_set; /* The pair of characters in ch and wanted_ch. */ size_t i; /* Generic loop variable. */ size_t matchhalf; /* The number of single-byte characters in one half of * matchbrackets. */ size_t mbmatchhalf; /* The number of multibyte characters in one half of * matchbrackets. */ size_t count = 1; /* The initial bracket count. */ bool reverse; /* The direction we search. */ char *found_ch; /* The character we find. */ assert(mbstrlen(matchbrackets) % 2 == 0); ch = answer + statusbar_x; if (ch == '\0' || (ch = mbstrchr(matchbrackets, ch)) == NULL) return; /* Save where we are. */ statusbar_x_save = statusbar_x; pww_save = statusbar_pww; /* If we're on an opening bracket, which must be in the first half * of matchbrackets, we want to search forwards for a closing * bracket. If we're on a closing bracket, which must be in the * second half of matchbrackets, we want to search backwards for an * opening bracket. */ matchhalf = 0; mbmatchhalf = mbstrlen(matchbrackets) / 2; for (i = 0; i < mbmatchhalf; i++) matchhalf += parse_mbchar(matchbrackets + matchhalf, NULL, NULL); reverse = ((ch - matchbrackets) >= matchhalf); /* If we're on an opening bracket, set wanted_ch to the character * that's matchhalf characters after ch. If we're on a closing * bracket, set wanted_ch to the character that's matchhalf * characters before ch. */ wanted_ch = ch; while (mbmatchhalf > 0) { if (reverse) wanted_ch = matchbrackets + move_mbleft(matchbrackets, wanted_ch - matchbrackets); else wanted_ch += move_mbright(wanted_ch, 0); mbmatchhalf--; } ch_len = parse_mbchar(ch, NULL, NULL); wanted_ch_len = parse_mbchar(wanted_ch, NULL, NULL); /* Fill bracket_set in with the values of ch and wanted_ch. */ bracket_set = charalloc((mb_cur_max() * 2) + 1); strncpy(bracket_set, ch, ch_len); strncpy(bracket_set + ch_len, wanted_ch, wanted_ch_len); null_at(&bracket_set, ch_len + wanted_ch_len); found_ch = charalloc(mb_cur_max() + 1); while (TRUE) { if (find_statusbar_bracket_match(reverse, bracket_set)) { /* If we found an identical bracket, increment count. If we * found a complementary bracket, decrement it. */ parse_mbchar(answer + statusbar_x, found_ch, NULL); count += (strncmp(found_ch, ch, ch_len) == 0) ? 1 : -1; /* If count is zero, we've found a matching bracket. Update * the statusbar prompt and get out. */ if (count == 0) { if (need_statusbar_horizontal_update(pww_save)) update_statusbar_line(answer, statusbar_x); break; } } else { /* We didn't find either an opening or closing bracket. * Restore where we were, and get out. */ statusbar_x = statusbar_x_save; statusbar_pww = pww_save; break; } } /* Clean up. */ free(bracket_set); free(found_ch); } #endif /* !NANO_TINY */ /* Return the placewewant associated with statusbar_x, i.e. the * zero-based column position of the cursor. The value will be no * smaller than statusbar_x. */ size_t statusbar_xplustabs(void) { return strnlenpt(answer, statusbar_x); } /* nano scrolls horizontally within a line in chunks. This function * returns the column number of the first character displayed in the * statusbar prompt when the cursor is at the given column with the * prompt ending at start_col. Note that (0 <= column - * get_statusbar_page_start(column) < COLS). */ size_t get_statusbar_page_start(size_t start_col, size_t column) { if (column == start_col || column < COLS - 1) return 0; else return column - start_col - (column - start_col) % (COLS - start_col - 1); } /* Put the cursor in the statusbar prompt at statusbar_x. */ void reset_statusbar_cursor(void) { size_t start_col = strlenpt(prompt) + 2; size_t xpt = statusbar_xplustabs(); wmove(bottomwin, 0, start_col + xpt - get_statusbar_page_start(start_col, start_col + xpt)); } /* Repaint the statusbar when getting a character in * get_prompt_string(). The statusbar text line will be displayed * starting with curranswer[index]. */ void update_statusbar_line(const char *curranswer, size_t index) { size_t start_col, page_start; char *expanded; assert(prompt != NULL && index <= strlen(curranswer)); start_col = strlenpt(prompt) + 2; index = strnlenpt(curranswer, index); page_start = get_statusbar_page_start(start_col, start_col + index); wattron(bottomwin, reverse_attr); blank_statusbar(); mvwaddnstr(bottomwin, 0, 0, prompt, actual_x(prompt, COLS - 2)); waddch(bottomwin, ':'); waddch(bottomwin, (page_start == 0) ? ' ' : '$'); expanded = display_string(curranswer, page_start, COLS - start_col - 1, FALSE); waddstr(bottomwin, expanded); free(expanded); wattroff(bottomwin, reverse_attr); reset_statusbar_cursor(); wnoutrefresh(bottomwin); } /* Return TRUE if we need an update after moving horizontally, and FALSE * otherwise. We need one if pww_save and statusbar_pww are on * different pages. */ bool need_statusbar_horizontal_update(size_t pww_save) { size_t start_col = strlenpt(prompt) + 2; return get_statusbar_page_start(start_col, start_col + pww_save) != get_statusbar_page_start(start_col, start_col + statusbar_pww); } /* Unconditionally redraw the entire screen, and then refresh it using * refresh_func(). */ void total_statusbar_refresh(void (*refresh_func)(void)) { total_redraw(); refresh_func(); } /* Get a string of input at the statusbar prompt. This should only be * called from do_prompt(). */ const sc *get_prompt_string(int *actual, bool allow_tabs, #ifndef DISABLE_TABCOMP bool allow_files, #endif const char *curranswer, bool *meta_key, bool *func_key, #ifndef NANO_TINY filestruct **history_list, #endif void (*refresh_func)(void), int menu #ifndef DISABLE_TABCOMP , bool *list #endif ) { int kbinput = ERR; bool have_shortcut, ran_func, finished; size_t curranswer_len; const sc *s; #ifndef DISABLE_TABCOMP bool tabbed = FALSE; /* Whether we've pressed Tab. */ #endif #ifndef NANO_TINY char *history = NULL; /* The current history string. */ char *magichistory = NULL; /* The temporary string typed at the bottom of the history, if * any. */ #ifndef DISABLE_TABCOMP int last_kbinput = ERR; /* The key we pressed before the current key. */ size_t complete_len = 0; /* The length of the original string that we're trying to * tab complete, if any. */ #endif #endif /* !NANO_TINY */ answer = mallocstrcpy(answer, curranswer); curranswer_len = strlen(answer); /* If reset_statusbar_x is TRUE, restore statusbar_x and * statusbar_pww to what they were before this prompt. Then, if * statusbar_x is uninitialized or past the end of curranswer, put * statusbar_x at the end of the string and update statusbar_pww * based on it. We do these things so that the cursor position * stays at the right place if a prompt-changing toggle is pressed, * or if this prompt was started from another prompt and we cancel * out of it. */ if (reset_statusbar_x) { statusbar_x = old_statusbar_x; statusbar_pww = old_pww; } if (statusbar_x == (size_t)-1 || statusbar_x > curranswer_len) { statusbar_x = curranswer_len; statusbar_pww = statusbar_xplustabs(); } currmenu = menu; #ifdef DEBUG fprintf(stderr, "get_prompt_string: answer = \"%s\", statusbar_x = %d\n", answer, statusbar_x); #endif update_statusbar_line(answer, statusbar_x); /* Refresh the edit window and the statusbar before getting * input. */ wnoutrefresh(edit); wnoutrefresh(bottomwin); /* If we're using restricted mode, we aren't allowed to change the * name of the current file once it has one, because that would * allow writing to files not specified on the command line. In * this case, disable all keys that would change the text if the * filename isn't blank and we're at the "Write File" prompt. */ while (1) { kbinput = do_statusbar_input(meta_key, func_key, &have_shortcut, &ran_func, &finished, TRUE, refresh_func); assert(statusbar_x <= strlen(answer)); s = get_shortcut(currmenu, &kbinput, meta_key, func_key); if (s) if (s->scfunc == (void *) cancel_msg || s->scfunc == do_enter) break; #ifndef DISABLE_TABCOMP if (s && s->scfunc != do_tab) tabbed = FALSE; #endif #ifndef DISABLE_TABCOMP #ifndef NANO_TINY if (s && s->scfunc == do_tab) { if (history_list != NULL) { if (last_kbinput != sc_seq_or(do_tab, NANO_CONTROL_I)) complete_len = strlen(answer); if (complete_len > 0) { answer = mallocstrcpy(answer, get_history_completion(history_list, answer, complete_len)); statusbar_x = strlen(answer); } } else #endif /* !NANO_TINY */ if (allow_tabs) answer = input_tab(answer, allow_files, &statusbar_x, &tabbed, refresh_func, list); update_statusbar_line(answer, statusbar_x); } else #endif /* !DISABLE_TABCOMP */ #ifndef NANO_TINY if (s && s->scfunc == do_up_void) { if (history_list != NULL) { /* If we're scrolling up at the bottom of the * history list and answer isn't blank, save answer * in magichistory. */ if ((*history_list)->next == NULL && answer[0] != '\0') magichistory = mallocstrcpy(magichistory, answer); /* Get the older search from the history list and * save it in answer. If there is no older search, * don't do anything. */ if ((history = get_history_older(history_list)) != NULL) { answer = mallocstrcpy(answer, history); statusbar_x = strlen(answer); } update_statusbar_line(answer, statusbar_x); /* This key has a shortcut list entry when it's used * to move to an older search, which means that * finished has been set to TRUE. Set it back to * FALSE here, so that we aren't kicked out of the * statusbar prompt. */ finished = FALSE; } } else if (s && s->scfunc == do_down_void) { if (history_list != NULL) { /* Get the newer search from the history list and * save it in answer. If there is no newer search, * don't do anything. */ if ((history = get_history_newer(history_list)) != NULL) { answer = mallocstrcpy(answer, history); statusbar_x = strlen(answer); } /* If, after scrolling down, we're at the bottom of * the history list, answer is blank, and * magichistory is set, save magichistory in * answer. */ if ((*history_list)->next == NULL && *answer == '\0' && magichistory != NULL) { answer = mallocstrcpy(answer, magichistory); statusbar_x = strlen(answer); } update_statusbar_line(answer, statusbar_x); /* This key has a shortcut list entry when it's used * to move to a newer search, which means that * finished has been set to TRUE. Set it back to * FALSE here, so that we aren't kicked out of the * statusbar prompt. */ finished = FALSE; } } else #endif /* !NANO_TINY */ #ifndef DISABLE_HELP if (s && s->scfunc == do_help_void) { update_statusbar_line(answer, statusbar_x); /* This key has a shortcut list entry when it's used to * go to the help browser or display a message * indicating that help is disabled, which means that * finished has been set to TRUE. Set it back to FALSE * here, so that we aren't kicked out of the statusbar * prompt. */ finished = FALSE; } #endif /* If we have a shortcut with an associated function, break out * if we're finished after running or trying to run the * function. */ if (finished) break; #if !defined(NANO_TINY) && !defined(DISABLE_TABCOMP) last_kbinput = kbinput; #endif reset_statusbar_cursor(); wnoutrefresh(bottomwin); } #ifndef NANO_TINY /* Set the current position in the history list to the bottom and * free magichistory, if we need to. */ if (history_list != NULL) { history_reset(*history_list); if (magichistory != NULL) free(magichistory); } #endif /* We've finished putting in an answer or run a normal shortcut's * associated function, so reset statusbar_x and statusbar_pww. If * we've finished putting in an answer, reset the statusbar cursor * position too. */ if (s) { if (s->scfunc == (void *) cancel_msg || s->scfunc == do_enter || ran_func) { statusbar_x = old_statusbar_x; statusbar_pww = old_pww; if (!ran_func) reset_statusbar_x = TRUE; /* Otherwise, we're still putting in an answer or a shortcut with * an associated function, so leave the statusbar cursor position * alone. */ } else reset_statusbar_x = FALSE; } *actual = kbinput; return s; } /* Ask a question on the statusbar. The prompt will be stored in the * static prompt, which should be NULL initially, and the answer will be * stored in the answer global. Returns -1 on aborted enter, -2 on a * blank string, and 0 otherwise, the valid shortcut key caught. * curranswer is any editable text that we want to put up by default, * and refresh_func is the function we want to call to refresh the edit * window. * * The allow_tabs parameter indicates whether we should allow tabs to be * interpreted. The allow_files parameter indicates whether we should * allow all files (as opposed to just directories) to be tab * completed. */ int do_prompt(bool allow_tabs, #ifndef DISABLE_TABCOMP bool allow_files, #endif int menu, const char *curranswer, bool *meta_key, bool *func_key, #ifndef NANO_TINY filestruct **history_list, #endif void (*refresh_func)(void), const char *msg, ...) { va_list ap; int retval; const sc *s; #ifndef DISABLE_TABCOMP bool list = FALSE; #endif /* prompt has been freed and set to NULL unless the user resized * while at the statusbar prompt. */ if (prompt != NULL) free(prompt); prompt = charalloc(((COLS - 4) * mb_cur_max()) + 1); bottombars(menu); va_start(ap, msg); vsnprintf(prompt, (COLS - 4) * mb_cur_max(), msg, ap); va_end(ap); null_at(&prompt, actual_x(prompt, COLS - 4)); s = get_prompt_string(&retval, allow_tabs, #ifndef DISABLE_TABCOMP allow_files, #endif curranswer, meta_key, func_key, #ifndef NANO_TINY history_list, #endif refresh_func, menu #ifndef DISABLE_TABCOMP , &list #endif ); free(prompt); prompt = NULL; /* We're done with the prompt, so save the statusbar cursor * position. */ old_statusbar_x = statusbar_x; old_pww = statusbar_pww; /* If we left the prompt via Cancel or Enter, set the return value * properly. */ if (s && s->scfunc == (void *) cancel_msg) retval = -1; else if (s && s->scfunc == do_enter) retval = (*answer == '\0') ? -2 : 0; blank_statusbar(); wnoutrefresh(bottomwin); #ifdef DEBUG fprintf(stderr, "answer = \"%s\"\n", answer); #endif #ifndef DISABLE_TABCOMP /* If we've done tab completion, there might be a list of filename * matches on the edit window at this point. Make sure that they're * cleared off. */ if (list) refresh_func(); #endif return retval; } /* This function forces a reset of the statusbar cursor position. It * should be called when we get out of all statusbar prompts. */ void do_prompt_abort(void) { /* Uninitialize the old cursor position in answer. */ old_statusbar_x = (size_t)-1; old_pww = (size_t)-1; reset_statusbar_x = TRUE; } /* Ask a simple Yes/No (and optionally All) question, specified in msg, * on the statusbar. Return 1 for Yes, 0 for No, 2 for All (if all is * TRUE when passed in), and -1 for Cancel. */ int do_yesno_prompt(bool all, const char *msg) { int ok = -2, width = 16; const char *yesstr; /* String of Yes characters accepted. */ const char *nostr; /* Same for No. */ const char *allstr; /* And All, surprise! */ const sc *s; assert(msg != NULL); /* yesstr, nostr, and allstr are strings of any length. Each string * consists of all single-byte characters accepted as valid * characters for that value. The first value will be the one * displayed in the shortcuts. */ /* TRANSLATORS: For the next three strings, if possible, specify * the single-byte shortcuts for both your language and English. * For example, in French: "OoYy" for "Oui". */ yesstr = _("Yy"); nostr = _("Nn"); allstr = _("Aa"); if (!ISSET(NO_HELP)) { char shortstr[3]; /* Temp string for Yes, No, All. */ if (COLS < 32) width = COLS / 2; /* Clear the shortcut list from the bottom of the screen. */ blank_bottombars(); sprintf(shortstr, " %c", yesstr[0]); wmove(bottomwin, 1, 0); onekey(shortstr, _("Yes"), width); if (all) { wmove(bottomwin, 1, width); shortstr[1] = allstr[0]; onekey(shortstr, _("All"), width); } wmove(bottomwin, 2, 0); shortstr[1] = nostr[0]; onekey(shortstr, _("No"), width); wmove(bottomwin, 2, 16); onekey("^C", _("Cancel"), width); } wattron(bottomwin, reverse_attr); blank_statusbar(); mvwaddnstr(bottomwin, 0, 0, msg, actual_x(msg, COLS - 1)); wattroff(bottomwin, reverse_attr); /* Refresh the edit window and the statusbar before getting * input. */ wnoutrefresh(edit); wnoutrefresh(bottomwin); do { int kbinput; bool meta_key, func_key; #ifndef DISABLE_MOUSE int mouse_x, mouse_y; #endif kbinput = get_kbinput(bottomwin, &meta_key, &func_key); s = get_shortcut(currmenu, &kbinput, &meta_key, &func_key); if (s && s->scfunc == (void *) cancel_msg) ok = -1; #ifndef DISABLE_MOUSE else if (kbinput == KEY_MOUSE) { /* We can click on the Yes/No/All shortcut list to * select an answer. */ if (get_mouseinput(&mouse_x, &mouse_y, FALSE) == 0 && wmouse_trafo(bottomwin, &mouse_y, &mouse_x, FALSE) && mouse_x < (width * 2) && mouse_y > 0) { int x = mouse_x / width; /* Calculate the x-coordinate relative to the * two columns of the Yes/No/All shortcuts in * bottomwin. */ int y = mouse_y - 1; /* Calculate the y-coordinate relative to the * beginning of the Yes/No/All shortcuts in * bottomwin, i.e. with the sizes of topwin, * edit, and the first line of bottomwin * subtracted out. */ assert(0 <= x && x <= 1 && 0 <= y && y <= 1); /* x == 0 means they clicked Yes or No. y == 0 * means Yes or All. */ ok = -2 * x * y + x - y + 1; if (ok == 2 && !all) ok = -2; } } #endif /* !DISABLE_MOUSE */ else if (s && s->scfunc == total_refresh) { total_redraw(); continue; } else { /* Look for the kbinput in the Yes, No and (optionally) * All strings. */ if (strchr(yesstr, kbinput) != NULL) ok = 1; else if (strchr(nostr, kbinput) != NULL) ok = 0; else if (all && strchr(allstr, kbinput) != NULL) ok = 2; } } while (ok == -2); return ok; }