/* $OpenBSD: search.c,v 1.30 2006/06/01 09:00:50 kjell Exp $ */ /* This file is in the public domain. */ /* * Search commands. * The functions in this file implement the search commands (both plain and * incremental searches are supported) and the query-replace command. * * The plain old search code is part of the original MicroEMACS "distribution". * The incremental search code and the query-replace code is by Rich Ellison. */ #include "def.h" #include #ifndef NO_MACRO #include "macro.h" #endif /* !NO_MACRO */ #define SRCH_BEGIN (0) /* Search sub-codes. */ #define SRCH_FORW (-1) #define SRCH_BACK (-2) #define SRCH_NOPR (-3) #define SRCH_ACCM (-4) #define SRCH_MARK (-5) struct srchcom { int s_code; struct line *s_dotp; int s_doto; }; static int isearch(int); static void is_cpush(int); static void is_lpush(void); static void is_pop(void); static int is_peek(void); static void is_undo(int *, int *); static int is_find(int); static void is_prompt(int, int, int); static void is_dspl(char *, int); static int eq(int, int, int); static struct srchcom cmds[NSRCH]; static int cip; int srch_lastdir = SRCH_NOPR; /* Last search flags. */ /* * Search forward. Get a search string from the user, and search for it * starting at ".". If found, "." gets moved to just after the matched * characters, and display does all the hard stuff. If not found, it just * prints a message. */ /* ARGSUSED */ int forwsearch(int f, int n) { int s; if ((s = readpattern("Search")) != TRUE) return (s); if (forwsrch() == FALSE) { ewprintf("Search failed: \"%s\"", pat); return (FALSE); } srch_lastdir = SRCH_FORW; return (TRUE); } /* * Reverse search. Get a search string from the user, and search, starting * at "." and proceeding toward the front of the buffer. If found "." is * left pointing at the first character of the pattern [the last character * that was matched]. */ /* ARGSUSED */ int backsearch(int f, int n) { int s; if ((s = readpattern("Search backward")) != TRUE) return (s); if (backsrch() == FALSE) { ewprintf("Search failed: \"%s\"", pat); return (FALSE); } srch_lastdir = SRCH_BACK; return (TRUE); } /* * Search again, using the same search string and direction as the last * search command. The direction has been saved in "srch_lastdir", so you * know which way to go. */ /* ARGSUSED */ int searchagain(int f, int n) { if (srch_lastdir == SRCH_FORW) { if (forwsrch() == FALSE) { ewprintf("Search failed: \"%s\"", pat); return (FALSE); } return (TRUE); } if (srch_lastdir == SRCH_BACK) { if (backsrch() == FALSE) { ewprintf("Search failed: \"%s\"", pat); return (FALSE); } return (TRUE); } ewprintf("No last search"); return (FALSE); } /* * Use incremental searching, initially in the forward direction. * isearch ignores any explicit arguments. */ /* ARGSUSED */ int forwisearch(int f, int n) { return (isearch(SRCH_FORW)); } /* * Use incremental searching, initially in the reverse direction. * isearch ignores any explicit arguments. */ /* ARGSUSED */ int backisearch(int f, int n) { return (isearch(SRCH_BACK)); } /* * Incremental Search. * dir is used as the initial direction to search. * ^S switch direction to forward * ^R switch direction to reverse * ^Q quote next character (allows searching for ^N etc.) * exit from Isearch * undoes last character typed. (tricky job to do this correctly). * other ^ exit search, don't set mark * else accumulate into search string */ static int isearch(int dir) { struct line *clp; int c; int cbo; int success; int pptr; int firstc; int xcase; int i; char opat[NPAT]; int cdotline; #ifndef NO_MACRO if (macrodef) { ewprintf("Can't isearch in macro"); return (FALSE); } #endif /* !NO_MACRO */ for (cip = 0; cip < NSRCH; cip++) cmds[cip].s_code = SRCH_NOPR; (void)strlcpy(opat, pat, sizeof(opat)); cip = 0; pptr = -1; clp = curwp->w_dotp; cbo = curwp->w_doto; cdotline = curwp->w_dotline; is_lpush(); is_cpush(SRCH_BEGIN); success = TRUE; is_prompt(dir, TRUE, success); for (;;) { update(); switch (c = getkey(FALSE)) { case CCHR('['): /* * If new characters come in the next 300 msec, * we can assume that they belong to a longer * escaped sequence so we should ungetkey the * ESC to avoid writing out garbage. */ if (ttwait(300) == FALSE) ungetkey(c); srch_lastdir = dir; curwp->w_markp = clp; curwp->w_marko = cbo; ewprintf("Mark set"); return (TRUE); case CCHR('G'): if (success != TRUE) { while (is_peek() == SRCH_ACCM) is_undo(&pptr, &dir); success = TRUE; is_prompt(dir, pptr < 0, success); break; } curwp->w_dotp = clp; curwp->w_doto = cbo; curwp->w_dotline = cdotline; curwp->w_flag |= WFMOVE; srch_lastdir = dir; (void)ctrlg(FFRAND, 0); (void)strlcpy(pat, opat, sizeof(pat)); return (ABORT); case CCHR(']'): case CCHR('S'): if (dir == SRCH_BACK) { dir = SRCH_FORW; is_lpush(); is_cpush(SRCH_FORW); success = TRUE; } if (success == FALSE && dir == SRCH_FORW) { /* wrap the search to beginning */ clp = lforw(curbp->b_linep); curwp->w_dotp = clp; curwp->w_doto = 0; curwp->w_dotline = 1; if (is_find(dir) != FALSE) { is_cpush(SRCH_MARK); success = TRUE; } break; } is_lpush(); pptr = strlen(pat); (void)forwchar(FFRAND, 1); if (is_find(SRCH_FORW) != FALSE) is_cpush(SRCH_MARK); else { (void)backchar(FFRAND, 1); ttbeep(); success = FALSE; } is_prompt(dir, pptr < 0, success); break; case CCHR('R'): if (dir == SRCH_FORW) { dir = SRCH_BACK; is_lpush(); is_cpush(SRCH_BACK); success = TRUE; } if (success == FALSE && dir == SRCH_BACK) { /* wrap the search to end */ clp = lback(curbp->b_linep); curwp->w_dotp = clp; curwp->w_doto = llength(curwp->w_dotp); curwp->w_dotline = curwp->w_bufp->b_lines; if (is_find(dir) != FALSE) { is_cpush(SRCH_MARK); success = TRUE; } break; } is_lpush(); pptr = strlen(pat); (void)backchar(FFRAND, 1); if (is_find(SRCH_BACK) != FALSE) is_cpush(SRCH_MARK); else { (void)forwchar(FFRAND, 1); ttbeep(); success = FALSE; } is_prompt(dir, pptr < 0, success); break; case CCHR('W'): /* add the rest of the current word to the pattern */ clp = curwp->w_dotp; cbo = curwp->w_doto; firstc = 1; if (pptr == -1) pptr = 0; if (dir == SRCH_BACK) { /* when isearching backwards, cbo is the start of the pattern */ cbo += pptr; } /* if the search is case insensitive, add to pattern using lowercase */ xcase = 0; for (i = 0; pat[i]; i++) if (ISUPPER(CHARMASK(pat[i]))) xcase = 1; while (cbo < llength(clp)) { c = lgetc(clp, cbo++); if ((!firstc && !isalnum(c)) || pptr == NPAT) break; firstc = 0; if (!xcase && ISUPPER(c)) c = TOLOWER(c); pat[pptr++] = c; pat[pptr] = '\0'; /* cursor only moves when isearching forwards */ if (dir == SRCH_FORW) { curwp->w_doto = cbo; curwp->w_flag |= WFMOVE; update(); } } is_prompt(dir, pptr < 0, success); break; case CCHR('H'): case CCHR('?'): is_undo(&pptr, &dir); if (is_peek() != SRCH_ACCM) success = TRUE; is_prompt(dir, pptr < 0, success); break; case CCHR('\\'): case CCHR('Q'): c = (char)getkey(FALSE); goto addchar; case CCHR('M'): c = CCHR('J'); goto addchar; default: if (ISCTRL(c)) { ungetkey(c); curwp->w_markp = clp; curwp->w_marko = cbo; ewprintf("Mark set"); curwp->w_flag |= WFMOVE; return (TRUE); } /* FALLTHRU */ case CCHR('I'): case CCHR('J'): addchar: if (pptr == -1) pptr = 0; if (pptr == 0) success = TRUE; pat[pptr++] = c; if (pptr == NPAT) { ewprintf("Pattern too long"); return (FALSE); } pat[pptr] = '\0'; is_lpush(); if (success != FALSE) { if (is_find(dir) != FALSE) is_cpush(c); else { success = FALSE; ttbeep(); is_cpush(SRCH_ACCM); } } else is_cpush(SRCH_ACCM); is_prompt(dir, FALSE, success); } } /* NOTREACHED */ } static void is_cpush(int cmd) { if (++cip >= NSRCH) cip = 0; cmds[cip].s_code = cmd; } static void is_lpush(void) { int ctp; ctp = cip + 1; if (ctp >= NSRCH) ctp = 0; cmds[ctp].s_code = SRCH_NOPR; cmds[ctp].s_doto = curwp->w_doto; cmds[ctp].s_dotp = curwp->w_dotp; } static void is_pop(void) { if (cmds[cip].s_code != SRCH_NOPR) { curwp->w_doto = cmds[cip].s_doto; curwp->w_dotp = cmds[cip].s_dotp; curwp->w_flag |= WFMOVE; cmds[cip].s_code = SRCH_NOPR; } if (--cip <= 0) cip = NSRCH - 1; } static int is_peek(void) { return (cmds[cip].s_code); } /* this used to always return TRUE (the return value was checked) */ static void is_undo(int *pptr, int *dir) { int redo = FALSE; switch (cmds[cip].s_code) { case SRCH_BEGIN: case SRCH_NOPR: *pptr = -1; break; case SRCH_MARK: break; case SRCH_FORW: *dir = SRCH_BACK; redo = TRUE; break; case SRCH_BACK: *dir = SRCH_FORW; redo = TRUE; break; case SRCH_ACCM: default: *pptr -= 1; if (*pptr < 0) *pptr = 0; pat[*pptr] = '\0'; break; } is_pop(); if (redo) is_undo(pptr, dir); } static int is_find(int dir) { int plen, odoto; struct line *odotp; odoto = curwp->w_doto; odotp = curwp->w_dotp; plen = strlen(pat); if (plen != 0) { if (dir == SRCH_FORW) { (void)backchar(FFARG | FFRAND, plen); if (forwsrch() == FALSE) { curwp->w_doto = odoto; curwp->w_dotp = odotp; return (FALSE); } return (TRUE); } if (dir == SRCH_BACK) { (void)forwchar(FFARG | FFRAND, plen); if (backsrch() == FALSE) { curwp->w_doto = odoto; curwp->w_dotp = odotp; return (FALSE); } return (TRUE); } ewprintf("bad call to is_find"); return (FALSE); } return (FALSE); } /* * If called with "dir" not one of SRCH_FORW or SRCH_BACK, this routine used * to print an error message. It also used to return TRUE or FALSE, depending * on if it liked the "dir". However, none of the callers looked at the * status, so I just made the checking vanish. */ static void is_prompt(int dir, int flag, int success) { if (dir == SRCH_FORW) { if (success != FALSE) is_dspl("I-search", flag); else is_dspl("Failing I-search", flag); } else if (dir == SRCH_BACK) { if (success != FALSE) is_dspl("I-search backward", flag); else is_dspl("Failing I-search backward", flag); } else ewprintf("Broken call to is_prompt"); } /* * Prompt writing routine for the incremental search. The "prompt" is just * a string. The "flag" determines whether pat should be printed. */ static void is_dspl(char *prompt, int flag) { if (flag != FALSE) ewprintf("%s: ", prompt); else ewprintf("%s: %s", prompt, pat); } /* * Query Replace. * Replace strings selectively. Does a search and replace operation. */ /* ARGSUSED */ int queryrepl(int f, int n) { int s; int rcnt = 0; /* replacements made so far */ int plen; /* length of found string */ char news[NPAT], *rep; /* replacement string */ #ifndef NO_MACRO if (macrodef) { ewprintf("Can't query replace in macro"); return (FALSE); } #endif /* !NO_MACRO */ if ((s = readpattern("Query replace")) != TRUE) return (s); if ((rep = eread("Query replace %s with: ", news, NPAT, EFNUL | EFNEW | EFCR, pat)) == NULL) return (ABORT); else if (rep[0] == '\0') news[0] = '\0'; ewprintf("Query replacing %s with %s:", pat, news); plen = strlen(pat); /* * Search forward repeatedly, checking each time whether to insert * or not. The "!" case makes the check always true, so it gets put * into a tighter loop for efficiency. */ while (forwsrch() == TRUE) { retry: update(); switch (getkey(FALSE)) { case 'y': case ' ': if (lreplace((RSIZE)plen, news) == FALSE) return (FALSE); rcnt++; break; case '.': if (lreplace((RSIZE)plen, news) == FALSE) return (FALSE); rcnt++; goto stopsearch; /* ^G, CR or ESC */ case CCHR('G'): (void)ctrlg(FFRAND, 0); goto stopsearch; case CCHR('['): case CCHR('M'): goto stopsearch; case '!': do { if (lreplace((RSIZE)plen, news) == FALSE) return (FALSE); rcnt++; } while (forwsrch() == TRUE); goto stopsearch; case 'n': case CCHR('H'): /* To not replace */ case CCHR('?'): break; default: ewprintf("y/n or /: replace/don't, [.] repl-end, [!] repl-rest, / quit"); goto retry; } } stopsearch: curwp->w_flag |= WFFULL; update(); if (rcnt == 1) ewprintf("Replaced 1 occurrence"); else ewprintf("Replaced %d occurrences", rcnt); return (TRUE); } /* * Replace string globally without individual prompting. */ /* ARGSUSED */ int replstr(int f, int n) { char news[NPAT]; int s, plen, rcnt = 0; char *r; if ((s = readpattern("Replace string")) != TRUE) return s; r = eread("Replace string %s with: ", news, NPAT, EFNUL | EFNEW | EFCR, pat); if (r == NULL) return (ABORT); plen = strlen(pat); while (forwsrch() == TRUE) { update(); if (lreplace((RSIZE)plen, news) == FALSE) return (FALSE); rcnt++; } curwp->w_flag |= WFFULL; update(); if (rcnt == 1) ewprintf("Replaced 1 occurrence"); else ewprintf("Replaced %d occurrences", rcnt); return (TRUE); } /* * This routine does the real work of a forward search. The pattern is sitting * in the external variable "pat". If found, dot is updated, the window system * is notified of the change, and TRUE is returned. If the string isn't found, * FALSE is returned. */ int forwsrch(void) { struct line *clp, *tlp; int cbo, tbo, c, i, xcase = 0; char *pp; int nline; clp = curwp->w_dotp; cbo = curwp->w_doto; nline = curwp->w_dotline; for (i = 0; pat[i]; i++) if (ISUPPER(CHARMASK(pat[i]))) xcase = 1; for (;;) { if (cbo == llength(clp)) { if ((clp = lforw(clp)) == curbp->b_linep) break; nline++; cbo = 0; c = CCHR('J'); } else c = lgetc(clp, cbo++); if (eq(c, pat[0], xcase) != FALSE) { tlp = clp; tbo = cbo; pp = &pat[1]; while (*pp != 0) { if (tbo == llength(tlp)) { tlp = lforw(tlp); if (tlp == curbp->b_linep) goto fail; tbo = 0; c = CCHR('J'); if (eq(c, *pp++, xcase) == FALSE) goto fail; nline++; } else { c = lgetc(tlp, tbo++); if (eq(c, *pp++, xcase) == FALSE) goto fail; } } curwp->w_dotp = tlp; curwp->w_doto = tbo; curwp->w_dotline = nline; curwp->w_flag |= WFMOVE; return (TRUE); } fail: ; } return (FALSE); } /* * This routine does the real work of a backward search. The pattern is * sitting in the external variable "pat". If found, dot is updated, the * window system is notified of the change, and TRUE is returned. If the * string isn't found, FALSE is returned. */ int backsrch(void) { struct line *clp, *tlp; int cbo, tbo, c, i, xcase = 0; char *epp, *pp; int nline; for (epp = &pat[0]; epp[1] != 0; ++epp); clp = curwp->w_dotp; cbo = curwp->w_doto; nline = curwp->w_dotline; for (i = 0; pat[i]; i++) if (ISUPPER(CHARMASK(pat[i]))) xcase = 1; for (;;) { if (cbo == 0) { clp = lback(clp); if (clp == curbp->b_linep) return (FALSE); nline--; cbo = llength(clp) + 1; } if (--cbo == llength(clp)) c = CCHR('J'); else c = lgetc(clp, cbo); if (eq(c, *epp, xcase) != FALSE) { tlp = clp; tbo = cbo; pp = epp; while (pp != &pat[0]) { if (tbo == 0) { tlp = lback(tlp); if (tlp == curbp->b_linep) goto fail; nline--; tbo = llength(tlp) + 1; } if (--tbo == llength(tlp)) c = CCHR('J'); else c = lgetc(tlp, tbo); if (eq(c, *--pp, xcase) == FALSE) goto fail; } curwp->w_dotp = tlp; curwp->w_doto = tbo; curwp->w_dotline = nline; curwp->w_flag |= WFMOVE; return (TRUE); } fail: ; } /* NOTREACHED */ } /* * Compare two characters. The "bc" comes from the buffer. It has its case * folded out. The "pc" is from the pattern. */ static int eq(int bc, int pc, int xcase) { bc = CHARMASK(bc); pc = CHARMASK(pc); if (bc == pc) return (TRUE); if (xcase) return (FALSE); if (ISUPPER(bc)) return (TOLOWER(bc) == pc); if (ISUPPER(pc)) return (bc == TOLOWER(pc)); return (FALSE); } /* * Read a pattern. Stash it in the external variable "pat". The "pat" is not * updated if the user types in an empty line. If the user typed an empty * line, and there is no old pattern, it is an error. Display the old pattern, * in the style of Jeff Lomicka. There is some do-it-yourself control * expansion. */ int readpattern(char *prompt) { char tpat[NPAT], *rep; int retval; if (pat[0] == '\0') rep = eread("%s: ", tpat, NPAT, EFNEW | EFCR, prompt); else rep = eread("%s: (default %s) ", tpat, NPAT, EFNUL | EFNEW | EFCR, prompt, pat); /* specified */ if (rep == NULL) { retval = ABORT; } else if (rep[0] != '\0') { (void)strlcpy(pat, tpat, sizeof(pat)); retval = TRUE; } else if (pat[0] != '\0') { retval = TRUE; } else retval = FALSE; return (retval); }