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[/] [openrisc/] [trunk/] [gnu-stable/] [gdb-7.2/] [readline/] [isearch.c] - Rev 835
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/* **************************************************************** */ /* */ /* I-Search and Searching */ /* */ /* **************************************************************** */ /* Copyright (C) 1987-2005 Free Software Foundation, Inc. This file contains the Readline Library (the Library), a set of routines for providing Emacs style line input to programs that ask for it. The Library 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 2, or (at your option) any later version. The Library 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. The GNU General Public License is often shipped with GNU software, and is generally kept in a file called COPYING or LICENSE. If you do not have a copy of the license, write to the Free Software Foundation, 59 Temple Place, Suite 330, Boston, MA 02111 USA. */ #define READLINE_LIBRARY #if defined (HAVE_CONFIG_H) # include <config.h> #endif #include <sys/types.h> #include <stdio.h> #if defined (HAVE_UNISTD_H) # include <unistd.h> #endif #if defined (HAVE_STDLIB_H) # include <stdlib.h> #else # include "ansi_stdlib.h" #endif #include "rldefs.h" #include "rlmbutil.h" #include "readline.h" #include "history.h" #include "rlprivate.h" #include "xmalloc.h" /* Variables exported to other files in the readline library. */ char *_rl_isearch_terminators = (char *)NULL; _rl_search_cxt *_rl_iscxt = 0; /* Variables imported from other files in the readline library. */ extern HIST_ENTRY *_rl_saved_line_for_history; static int rl_search_history PARAMS((int, int)); static _rl_search_cxt *_rl_isearch_init PARAMS((int)); static void _rl_isearch_fini PARAMS((_rl_search_cxt *)); static int _rl_isearch_cleanup PARAMS((_rl_search_cxt *, int)); /* Last line found by the current incremental search, so we don't `find' identical lines many times in a row. */ static char *prev_line_found; /* Last search string and its length. */ static char *last_isearch_string; static int last_isearch_string_len; static char *default_isearch_terminators = "\033\012"; _rl_search_cxt * _rl_scxt_alloc (type, flags) int type, flags; { _rl_search_cxt *cxt; cxt = (_rl_search_cxt *)xmalloc (sizeof (_rl_search_cxt)); cxt->type = type; cxt->sflags = flags; cxt->search_string = 0; cxt->search_string_size = cxt->search_string_index = 0; cxt->lines = 0; cxt->allocated_line = 0; cxt->hlen = cxt->hindex = 0; cxt->save_point = rl_point; cxt->save_mark = rl_mark; cxt->save_line = where_history (); cxt->last_found_line = cxt->save_line; cxt->prev_line_found = 0; cxt->save_undo_list = 0; cxt->history_pos = 0; cxt->direction = 0; cxt->lastc = 0; cxt->sline = 0; cxt->sline_len = cxt->sline_index = 0; cxt->search_terminators = 0; return cxt; } void _rl_scxt_dispose (cxt, flags) _rl_search_cxt *cxt; int flags; { FREE (cxt->search_string); FREE (cxt->allocated_line); FREE (cxt->lines); free (cxt); } /* Search backwards through the history looking for a string which is typed interactively. Start with the current line. */ int rl_reverse_search_history (sign, key) int sign, key; { return (rl_search_history (-sign, key)); } /* Search forwards through the history looking for a string which is typed interactively. Start with the current line. */ int rl_forward_search_history (sign, key) int sign, key; { return (rl_search_history (sign, key)); } /* Display the current state of the search in the echo-area. SEARCH_STRING contains the string that is being searched for, DIRECTION is zero for forward, or non-zero for reverse, WHERE is the history list number of the current line. If it is -1, then this line is the starting one. */ static void rl_display_search (search_string, reverse_p, where) char *search_string; int reverse_p, where; { char *message; int msglen, searchlen; searchlen = (search_string && *search_string) ? strlen (search_string) : 0; message = (char *)xmalloc (searchlen + 33); msglen = 0; #if defined (NOTDEF) if (where != -1) { sprintf (message, "[%d]", where + history_base); msglen = strlen (message); } #endif /* NOTDEF */ message[msglen++] = '('; if (reverse_p) { strcpy (message + msglen, "reverse-"); msglen += 8; } strcpy (message + msglen, "i-search)`"); msglen += 10; if (search_string) { strcpy (message + msglen, search_string); msglen += searchlen; } strcpy (message + msglen, "': "); rl_message ("%s", message); free (message); (*rl_redisplay_function) (); } static _rl_search_cxt * _rl_isearch_init (direction) int direction; { _rl_search_cxt *cxt; register int i; HIST_ENTRY **hlist; cxt = _rl_scxt_alloc (RL_SEARCH_ISEARCH, 0); if (direction < 0) cxt->sflags |= SF_REVERSE; cxt->search_terminators = _rl_isearch_terminators ? _rl_isearch_terminators : default_isearch_terminators; /* Create an arrary of pointers to the lines that we want to search. */ hlist = history_list (); rl_maybe_replace_line (); i = 0; if (hlist) for (i = 0; hlist[i]; i++); /* Allocate space for this many lines, +1 for the current input line, and remember those lines. */ cxt->lines = (char **)xmalloc ((1 + (cxt->hlen = i)) * sizeof (char *)); for (i = 0; i < cxt->hlen; i++) cxt->lines[i] = hlist[i]->line; if (_rl_saved_line_for_history) cxt->lines[i] = _rl_saved_line_for_history->line; else { /* Keep track of this so we can free it. */ cxt->allocated_line = (char *)xmalloc (1 + strlen (rl_line_buffer)); strcpy (cxt->allocated_line, &rl_line_buffer[0]); cxt->lines[i] = cxt->allocated_line; } cxt->hlen++; /* The line where we start the search. */ cxt->history_pos = cxt->save_line; rl_save_prompt (); /* Initialize search parameters. */ cxt->search_string = (char *)xmalloc (cxt->search_string_size = 128); cxt->search_string[cxt->search_string_index = 0] = '\0'; /* Normalize DIRECTION into 1 or -1. */ cxt->direction = (direction >= 0) ? 1 : -1; cxt->sline = rl_line_buffer; cxt->sline_len = strlen (cxt->sline); cxt->sline_index = rl_point; _rl_iscxt = cxt; /* save globally */ return cxt; } static void _rl_isearch_fini (cxt) _rl_search_cxt *cxt; { /* First put back the original state. */ strcpy (rl_line_buffer, cxt->lines[cxt->save_line]); rl_restore_prompt (); /* Save the search string for possible later use. */ FREE (last_isearch_string); last_isearch_string = cxt->search_string; last_isearch_string_len = cxt->search_string_index; cxt->search_string = 0; if (cxt->last_found_line < cxt->save_line) rl_get_previous_history (cxt->save_line - cxt->last_found_line, 0); else rl_get_next_history (cxt->last_found_line - cxt->save_line, 0); /* If the string was not found, put point at the end of the last matching line. If last_found_line == orig_line, we didn't find any matching history lines at all, so put point back in its original position. */ if (cxt->sline_index < 0) { if (cxt->last_found_line == cxt->save_line) cxt->sline_index = cxt->save_point; else cxt->sline_index = strlen (rl_line_buffer); rl_mark = cxt->save_mark; } rl_point = cxt->sline_index; /* Don't worry about where to put the mark here; rl_get_previous_history and rl_get_next_history take care of it. */ rl_clear_message (); } int _rl_search_getchar (cxt) _rl_search_cxt *cxt; { int c; /* Read a key and decide how to proceed. */ RL_SETSTATE(RL_STATE_MOREINPUT); c = cxt->lastc = rl_read_key (); RL_UNSETSTATE(RL_STATE_MOREINPUT); #if defined (HANDLE_MULTIBYTE) if (MB_CUR_MAX > 1 && rl_byte_oriented == 0) c = cxt->lastc = _rl_read_mbstring (cxt->lastc, cxt->mb, MB_LEN_MAX); #endif return c; } /* Process just-read character C according to isearch context CXT. Return -1 if the caller should just free the context and return, 0 if we should break out of the loop, and 1 if we should continue to read characters. */ int _rl_isearch_dispatch (cxt, c) _rl_search_cxt *cxt; int c; { int n, wstart, wlen, limit, cval; rl_command_func_t *f; f = (rl_command_func_t *)NULL; /* Translate the keys we do something with to opcodes. */ if (c >= 0 && _rl_keymap[c].type == ISFUNC) { f = _rl_keymap[c].function; if (f == rl_reverse_search_history) cxt->lastc = (cxt->sflags & SF_REVERSE) ? -1 : -2; else if (f == rl_forward_search_history) cxt->lastc = (cxt->sflags & SF_REVERSE) ? -2 : -1; else if (f == rl_rubout) cxt->lastc = -3; else if (c == CTRL ('G')) cxt->lastc = -4; else if (c == CTRL ('W')) /* XXX */ cxt->lastc = -5; else if (c == CTRL ('Y')) /* XXX */ cxt->lastc = -6; } /* The characters in isearch_terminators (set from the user-settable variable isearch-terminators) are used to terminate the search but not subsequently execute the character as a command. The default value is "\033\012" (ESC and C-J). */ if (strchr (cxt->search_terminators, cxt->lastc)) { /* ESC still terminates the search, but if there is pending input or if input arrives within 0.1 seconds (on systems with select(2)) it is used as a prefix character with rl_execute_next. WATCH OUT FOR THIS! This is intended to allow the arrow keys to be used like ^F and ^B are used to terminate the search and execute the movement command. XXX - since _rl_input_available depends on the application- settable keyboard timeout value, this could alternatively use _rl_input_queued(100000) */ if (cxt->lastc == ESC && _rl_input_available ()) rl_execute_next (ESC); return (0); } #define ENDSRCH_CHAR(c) \ ((CTRL_CHAR (c) || META_CHAR (c) || (c) == RUBOUT) && ((c) != CTRL ('G'))) #if defined (HANDLE_MULTIBYTE) if (MB_CUR_MAX > 1 && rl_byte_oriented == 0) { if (cxt->lastc >= 0 && (cxt->mb[0] && cxt->mb[1] == '\0') && ENDSRCH_CHAR (cxt->lastc)) { /* This sets rl_pending_input to c; it will be picked up the next time rl_read_key is called. */ rl_execute_next (cxt->lastc); return (0); } } else #endif if (cxt->lastc >= 0 && ENDSRCH_CHAR (cxt->lastc)) { /* This sets rl_pending_input to LASTC; it will be picked up the next time rl_read_key is called. */ rl_execute_next (cxt->lastc); return (0); } /* Now dispatch on the character. `Opcodes' affect the search string or state. Other characters are added to the string. */ switch (cxt->lastc) { /* search again */ case -1: if (cxt->search_string_index == 0) { if (last_isearch_string) { cxt->search_string_size = 64 + last_isearch_string_len; cxt->search_string = (char *)xrealloc (cxt->search_string, cxt->search_string_size); strcpy (cxt->search_string, last_isearch_string); cxt->search_string_index = last_isearch_string_len; rl_display_search (cxt->search_string, (cxt->sflags & SF_REVERSE), -1); break; } return (1); } else if (cxt->sflags & SF_REVERSE) cxt->sline_index--; else if (cxt->sline_index != cxt->sline_len) cxt->sline_index++; else rl_ding (); break; /* switch directions */ case -2: cxt->direction = -cxt->direction; if (cxt->direction < 0) cxt->sflags |= SF_REVERSE; else cxt->sflags &= ~SF_REVERSE; break; /* delete character from search string. */ case -3: /* C-H, DEL */ /* This is tricky. To do this right, we need to keep a stack of search positions for the current search, with sentinels marking the beginning and end. But this will do until we have a real isearch-undo. */ if (cxt->search_string_index == 0) rl_ding (); else cxt->search_string[--cxt->search_string_index] = '\0'; break; case -4: /* C-G, abort */ rl_replace_line (cxt->lines[cxt->save_line], 0); rl_point = cxt->save_point; rl_mark = cxt->save_mark; rl_restore_prompt(); rl_clear_message (); return -1; case -5: /* C-W */ /* skip over portion of line we already matched and yank word */ wstart = rl_point + cxt->search_string_index; if (wstart >= rl_end) { rl_ding (); break; } /* if not in a word, move to one. */ cval = _rl_char_value (rl_line_buffer, wstart); if (_rl_walphabetic (cval) == 0) { rl_ding (); break; } n = MB_NEXTCHAR (rl_line_buffer, wstart, 1, MB_FIND_NONZERO);; while (n < rl_end) { cval = _rl_char_value (rl_line_buffer, n); if (_rl_walphabetic (cval) == 0) break; n = MB_NEXTCHAR (rl_line_buffer, n, 1, MB_FIND_NONZERO);; } wlen = n - wstart + 1; if (cxt->search_string_index + wlen + 1 >= cxt->search_string_size) { cxt->search_string_size += wlen + 1; cxt->search_string = (char *)xrealloc (cxt->search_string, cxt->search_string_size); } for (; wstart < n; wstart++) cxt->search_string[cxt->search_string_index++] = rl_line_buffer[wstart]; cxt->search_string[cxt->search_string_index] = '\0'; break; case -6: /* C-Y */ /* skip over portion of line we already matched and yank rest */ wstart = rl_point + cxt->search_string_index; if (wstart >= rl_end) { rl_ding (); break; } n = rl_end - wstart + 1; if (cxt->search_string_index + n + 1 >= cxt->search_string_size) { cxt->search_string_size += n + 1; cxt->search_string = (char *)xrealloc (cxt->search_string, cxt->search_string_size); } for (n = wstart; n < rl_end; n++) cxt->search_string[cxt->search_string_index++] = rl_line_buffer[n]; cxt->search_string[cxt->search_string_index] = '\0'; break; /* Add character to search string and continue search. */ default: if (cxt->search_string_index + 2 >= cxt->search_string_size) { cxt->search_string_size += 128; cxt->search_string = (char *)xrealloc (cxt->search_string, cxt->search_string_size); } #if defined (HANDLE_MULTIBYTE) if (MB_CUR_MAX > 1 && rl_byte_oriented == 0) { int j, l; for (j = 0, l = strlen (cxt->mb); j < l; ) cxt->search_string[cxt->search_string_index++] = cxt->mb[j++]; } else #endif cxt->search_string[cxt->search_string_index++] = c; cxt->search_string[cxt->search_string_index] = '\0'; break; } for (cxt->sflags &= ~(SF_FOUND|SF_FAILED);; ) { limit = cxt->sline_len - cxt->search_string_index + 1; /* Search the current line. */ while ((cxt->sflags & SF_REVERSE) ? (cxt->sline_index >= 0) : (cxt->sline_index < limit)) { if (STREQN (cxt->search_string, cxt->sline + cxt->sline_index, cxt->search_string_index)) { cxt->sflags |= SF_FOUND; break; } else cxt->sline_index += cxt->direction; } if (cxt->sflags & SF_FOUND) break; /* Move to the next line, but skip new copies of the line we just found and lines shorter than the string we're searching for. */ do { /* Move to the next line. */ cxt->history_pos += cxt->direction; /* At limit for direction? */ if ((cxt->sflags & SF_REVERSE) ? (cxt->history_pos < 0) : (cxt->history_pos == cxt->hlen)) { cxt->sflags |= SF_FAILED; break; } /* We will need these later. */ cxt->sline = cxt->lines[cxt->history_pos]; cxt->sline_len = strlen (cxt->sline); } while ((cxt->prev_line_found && STREQ (cxt->prev_line_found, cxt->lines[cxt->history_pos])) || (cxt->search_string_index > cxt->sline_len)); if (cxt->sflags & SF_FAILED) break; /* Now set up the line for searching... */ cxt->sline_index = (cxt->sflags & SF_REVERSE) ? cxt->sline_len - cxt->search_string_index : 0; } if (cxt->sflags & SF_FAILED) { /* We cannot find the search string. Ding the bell. */ rl_ding (); cxt->history_pos = cxt->last_found_line; return 1; } /* We have found the search string. Just display it. But don't actually move there in the history list until the user accepts the location. */ if (cxt->sflags & SF_FOUND) { cxt->prev_line_found = cxt->lines[cxt->history_pos]; rl_replace_line (cxt->lines[cxt->history_pos], 0); rl_point = cxt->sline_index; cxt->last_found_line = cxt->history_pos; rl_display_search (cxt->search_string, (cxt->sflags & SF_REVERSE), (cxt->history_pos == cxt->save_line) ? -1 : cxt->history_pos); } return 1; } static int _rl_isearch_cleanup (cxt, r) _rl_search_cxt *cxt; int r; { if (r >= 0) _rl_isearch_fini (cxt); _rl_scxt_dispose (cxt, 0); _rl_iscxt = 0; RL_UNSETSTATE(RL_STATE_ISEARCH); return (r != 0); } /* Search through the history looking for an interactively typed string. This is analogous to i-search. We start the search in the current line. DIRECTION is which direction to search; >= 0 means forward, < 0 means backwards. */ static int rl_search_history (direction, invoking_key) int direction, invoking_key; { _rl_search_cxt *cxt; /* local for now, but saved globally */ int c, r; RL_SETSTATE(RL_STATE_ISEARCH); cxt = _rl_isearch_init (direction); rl_display_search (cxt->search_string, (cxt->sflags & SF_REVERSE), -1); /* If we are using the callback interface, all we do is set up here and return. The key is that we leave RL_STATE_ISEARCH set. */ if (RL_ISSTATE (RL_STATE_CALLBACK)) return (0); r = -1; for (;;) { c = _rl_search_getchar (cxt); /* We might want to handle EOF here (c == 0) */ r = _rl_isearch_dispatch (cxt, cxt->lastc); if (r <= 0) break; } /* The searching is over. The user may have found the string that she was looking for, or else she may have exited a failing search. If LINE_INDEX is -1, then that shows that the string searched for was not found. We use this to determine where to place rl_point. */ return (_rl_isearch_cleanup (cxt, r)); } #if defined (READLINE_CALLBACKS) /* Called from the callback functions when we are ready to read a key. The callback functions know to call this because RL_ISSTATE(RL_STATE_ISEARCH). If _rl_isearch_dispatch finishes searching, this function is responsible for turning off RL_STATE_ISEARCH, which it does using _rl_isearch_cleanup. */ int _rl_isearch_callback (cxt) _rl_search_cxt *cxt; { int c, r; c = _rl_search_getchar (cxt); /* We might want to handle EOF here */ r = _rl_isearch_dispatch (cxt, cxt->lastc); return (r <= 0) ? _rl_isearch_cleanup (cxt, r) : 0; } #endif
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