NetBSD/dist/nvi/ex/ex_subst.c

1452 lines
35 KiB
C

/* $NetBSD: ex_subst.c,v 1.3 2009/12/23 12:44:22 mlelstv Exp $ */
/*-
* Copyright (c) 1992, 1993, 1994
* The Regents of the University of California. All rights reserved.
* Copyright (c) 1992, 1993, 1994, 1995, 1996
* Keith Bostic. All rights reserved.
*
* See the LICENSE file for redistribution information.
*/
#include "config.h"
#ifndef lint
static const char sccsid[] = "Id: ex_subst.c,v 10.50 2002/02/09 21:18:23 skimo Exp (Berkeley) Date: 2002/02/09 21:18:23";
#endif /* not lint */
#include <sys/types.h>
#include <sys/queue.h>
#include <sys/time.h>
#include <bitstring.h>
#include <ctype.h>
#include <errno.h>
#include <limits.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include "../common/common.h"
#include "../vi/vi.h"
#define SUB_FIRST 0x01 /* The 'r' flag isn't reasonable. */
#define SUB_MUSTSETR 0x02 /* The 'r' flag is required. */
static int re_conv __P((SCR *, CHAR_T **, size_t *, int *));
static int re_cscope_conv __P((SCR *, CHAR_T **, size_t *, int *));
static int re_sub __P((SCR *,
CHAR_T *, CHAR_T **, size_t *, size_t *, regmatch_t [10]));
static int re_tag_conv __P((SCR *, CHAR_T **, size_t *, int *));
static int s __P((SCR *, EXCMD *, CHAR_T *, regex_t *, u_int));
/*
* ex_s --
* [line [,line]] s[ubstitute] [[/;]pat[/;]/repl[/;] [cgr] [count] [#lp]]
*
* Substitute on lines matching a pattern.
*
* PUBLIC: int ex_s __P((SCR *, EXCMD *));
*/
int
ex_s(SCR *sp, EXCMD *cmdp)
{
regex_t *re;
size_t blen, len;
u_int flags;
int delim;
CHAR_T *bp, *p, *ptrn, *rep, *t;
/*
* Skip leading white space.
*
* !!!
* Historic vi allowed any non-alphanumeric to serve as the
* substitution command delimiter.
*
* !!!
* If the arguments are empty, it's the same as &, i.e. we
* repeat the last substitution.
*/
if (cmdp->argc == 0)
goto subagain;
for (p = cmdp->argv[0]->bp,
len = cmdp->argv[0]->len; len > 0; --len, ++p) {
if (!isblank(*p))
break;
}
if (len == 0)
subagain: return (ex_subagain(sp, cmdp));
delim = *p++;
if (isalnum(delim) || delim == '\\')
return (s(sp, cmdp, p, &sp->subre_c, SUB_MUSTSETR));
/*
* !!!
* The full-blown substitute command reset the remembered
* state of the 'c' and 'g' suffices.
*/
sp->c_suffix = sp->g_suffix = 0;
/*
* Get the pattern string, toss escaping characters.
*
* !!!
* Historic vi accepted any of the following forms:
*
* :s/abc/def/ change "abc" to "def"
* :s/abc/def change "abc" to "def"
* :s/abc/ delete "abc"
* :s/abc delete "abc"
*
* QUOTING NOTE:
*
* Only toss an escaping character if it escapes a delimiter.
* This means that "s/A/\\\\f" replaces "A" with "\\f". It
* would be nice to be more regular, i.e. for each layer of
* escaping a single escaping character is removed, but that's
* not how the historic vi worked.
*/
for (ptrn = t = p;;) {
if (p[0] == '\0' || p[0] == delim) {
if (p[0] == delim)
++p;
/*
* !!!
* Nul terminate the pattern string -- it's passed
* to regcomp which doesn't understand anything else.
*/
*t = '\0';
break;
}
if (p[0] == '\\') {
if (p[1] == delim)
++p;
else if (p[1] == '\\')
*t++ = *p++;
}
*t++ = *p++;
}
/*
* If the pattern string is empty, use the last RE (not just the
* last substitution RE).
*/
if (*ptrn == '\0') {
if (sp->re == NULL) {
ex_emsg(sp, NULL, EXM_NOPREVRE);
return (1);
}
/* Re-compile the RE if necessary. */
if (!F_ISSET(sp, SC_RE_SEARCH) &&
re_compile(sp, sp->re, sp->re_len,
NULL, NULL, &sp->re_c, SEARCH_CSEARCH | SEARCH_MSG))
return (1);
flags = 0;
} else {
/*
* !!!
* Compile the RE. Historic practice is that substitutes set
* the search direction as well as both substitute and search
* RE's. We compile the RE twice, as we don't want to bother
* ref counting the pattern string and (opaque) structure.
*/
if (re_compile(sp, ptrn, t - ptrn, &sp->re,
&sp->re_len, &sp->re_c, SEARCH_CSEARCH | SEARCH_MSG))
return (1);
if (re_compile(sp, ptrn, t - ptrn, &sp->subre,
&sp->subre_len, &sp->subre_c, SEARCH_CSUBST | SEARCH_MSG))
return (1);
flags = SUB_FIRST;
sp->searchdir = FORWARD;
}
re = &sp->re_c;
/*
* Get the replacement string.
*
* The special character & (\& if O_MAGIC not set) matches the
* entire RE. No handling of & is required here, it's done by
* re_sub().
*
* The special character ~ (\~ if O_MAGIC not set) inserts the
* previous replacement string into this replacement string.
* Count ~'s to figure out how much space we need. We could
* special case nonexistent last patterns or whether or not
* O_MAGIC is set, but it's probably not worth the effort.
*
* QUOTING NOTE:
*
* Only toss an escaping character if it escapes a delimiter or
* if O_MAGIC is set and it escapes a tilde.
*
* !!!
* If the entire replacement pattern is "%", then use the last
* replacement pattern. This semantic was added to vi in System
* V and then percolated elsewhere, presumably around the time
* that it was added to their version of ed(1).
*/
if (p[0] == L('\0') || p[0] == delim) {
if (p[0] == delim)
++p;
if (sp->repl != NULL)
free(sp->repl);
sp->repl = NULL;
sp->repl_len = 0;
} else if (p[0] == L('%') && (p[1] == L('\0') || p[1] == delim))
p += p[1] == delim ? 2 : 1;
else {
for (rep = p, len = 0;
p[0] != L('\0') && p[0] != delim; ++p, ++len)
if (p[0] == L('~'))
len += sp->repl_len;
GET_SPACE_RETW(sp, bp, blen, len);
for (t = bp, len = 0, p = rep;;) {
if (p[0] == L('\0') || p[0] == delim) {
if (p[0] == delim)
++p;
break;
}
if (p[0] == L('\\')) {
if (p[1] == delim)
++p;
else if (p[1] == L('\\')) {
*t++ = *p++;
++len;
} else if (p[1] == L('~')) {
++p;
if (!O_ISSET(sp, O_MAGIC))
goto tilde;
}
} else if (p[0] == L('~') && O_ISSET(sp, O_MAGIC)) {
tilde: ++p;
MEMCPYW(t, sp->repl, sp->repl_len);
t += sp->repl_len;
len += sp->repl_len;
continue;
}
*t++ = *p++;
++len;
}
if ((sp->repl_len = len) != 0) {
if (sp->repl != NULL)
free(sp->repl);
if ((sp->repl = malloc(len * sizeof(CHAR_T))) == NULL) {
msgq(sp, M_SYSERR, NULL);
FREE_SPACEW(sp, bp, blen);
return (1);
}
MEMCPYW(sp->repl, bp, len);
}
FREE_SPACEW(sp, bp, blen);
}
return (s(sp, cmdp, p, re, flags));
}
/*
* ex_subagain --
* [line [,line]] & [cgr] [count] [#lp]]
*
* Substitute using the last substitute RE and replacement pattern.
*
* PUBLIC: int ex_subagain __P((SCR *, EXCMD *));
*/
int
ex_subagain(SCR *sp, EXCMD *cmdp)
{
if (sp->subre == NULL) {
ex_emsg(sp, NULL, EXM_NOPREVRE);
return (1);
}
if (!F_ISSET(sp, SC_RE_SUBST) &&
re_compile(sp, sp->subre, sp->subre_len,
NULL, NULL, &sp->subre_c, SEARCH_CSUBST | SEARCH_MSG))
return (1);
return (s(sp,
cmdp, cmdp->argc ? cmdp->argv[0]->bp : NULL, &sp->subre_c, 0));
}
/*
* ex_subtilde --
* [line [,line]] ~ [cgr] [count] [#lp]]
*
* Substitute using the last RE and last substitute replacement pattern.
*
* PUBLIC: int ex_subtilde __P((SCR *, EXCMD *));
*/
int
ex_subtilde(SCR *sp, EXCMD *cmdp)
{
if (sp->re == NULL) {
ex_emsg(sp, NULL, EXM_NOPREVRE);
return (1);
}
if (!F_ISSET(sp, SC_RE_SEARCH) && re_compile(sp, sp->re,
sp->re_len, NULL, NULL, &sp->re_c, SEARCH_CSEARCH | SEARCH_MSG))
return (1);
return (s(sp,
cmdp, cmdp->argc ? cmdp->argv[0]->bp : NULL, &sp->re_c, 0));
}
/*
* s --
* Do the substitution. This stuff is *really* tricky. There are lots of
* special cases, and general nastiness. Don't mess with it unless you're
* pretty confident.
*
* The nasty part of the substitution is what happens when the replacement
* string contains newlines. It's a bit tricky -- consider the information
* that has to be retained for "s/f\(o\)o/^M\1^M\1/". The solution here is
* to build a set of newline offsets which we use to break the line up later,
* when the replacement is done. Don't change it unless you're *damned*
* confident.
*/
#define NEEDNEWLINE(sp) { \
if (sp->newl_len == sp->newl_cnt) { \
sp->newl_len += 25; \
REALLOC(sp, sp->newl, size_t *, \
sp->newl_len * sizeof(size_t)); \
if (sp->newl == NULL) { \
sp->newl_len = 0; \
return (1); \
} \
} \
}
#define BUILD(sp, l, len) { \
if (lbclen + (len) > lblen) { \
lblen += MAX(lbclen + (len), 256); \
REALLOC(sp, lb, CHAR_T *, lblen * sizeof(CHAR_T)); \
if (lb == NULL) { \
lbclen = 0; \
return (1); \
} \
} \
MEMCPYW(lb + lbclen, l, len); \
lbclen += len; \
}
#define NEEDSP(sp, len, pnt) { \
if (lbclen + (len) > lblen) { \
lblen += MAX(lbclen + (len), 256); \
REALLOC(sp, lb, CHAR_T *, lblen * sizeof(CHAR_T)); \
if (lb == NULL) { \
lbclen = 0; \
return (1); \
} \
pnt = lb + lbclen; \
} \
}
static int
s(SCR *sp, EXCMD *cmdp, CHAR_T *st, regex_t *re, u_int flags)
{
EVENT ev;
MARK from, to;
TEXTH tiq;
db_recno_t elno, lno, slno;
u_long ul;
regmatch_t match[10];
size_t blen, cnt, last, lbclen, lblen, len, llen;
size_t offset, saved_offset, scno;
int cflag, lflag, nflag, pflag, rflag;
int didsub, do_eol_match, eflags, empty_ok, eval;
int linechanged, matched, quit, rval;
CHAR_T *lb, *bp;
enum nresult nret;
NEEDFILE(sp, cmdp);
slno = sp->lno;
scno = sp->cno;
/*
* !!!
* Historically, the 'g' and 'c' suffices were always toggled as flags,
* so ":s/A/B/" was the same as ":s/A/B/ccgg". If O_EDCOMPATIBLE was
* not set, they were initialized to 0 for all substitute commands. If
* O_EDCOMPATIBLE was set, they were initialized to 0 only if the user
* specified substitute/replacement patterns (see ex_s()).
*/
if (!O_ISSET(sp, O_EDCOMPATIBLE))
sp->c_suffix = sp->g_suffix = 0;
/*
* Historic vi permitted the '#', 'l' and 'p' options in vi mode, but
* it only displayed the last change. I'd disallow them, but they are
* useful in combination with the [v]global commands. In the current
* model the problem is combining them with the 'c' flag -- the screen
* would have to flip back and forth between the confirm screen and the
* ex print screen, which would be pretty awful. We do display all
* changes, though, for what that's worth.
*
* !!!
* Historic vi was fairly strict about the order of "options", the
* count, and "flags". I'm somewhat fuzzy on the difference between
* options and flags, anyway, so this is a simpler approach, and we
* just take it them in whatever order the user gives them. (The ex
* usage statement doesn't reflect this.)
*/
cflag = lflag = nflag = pflag = rflag = 0;
if (st == NULL)
goto noargs;
for (lno = OOBLNO; *st != '\0'; ++st)
switch (*st) {
case ' ':
case '\t':
continue;
case '+':
++cmdp->flagoff;
break;
case '-':
--cmdp->flagoff;
break;
case '0': case '1': case '2': case '3': case '4':
case '5': case '6': case '7': case '8': case '9':
if (lno != OOBLNO)
goto usage;
errno = 0;
nret = nget_uslong(sp, &ul, st, &st, 10);
lno = ul;
if (*st == '\0') /* Loop increment correction. */
--st;
if (nret != NUM_OK) {
if (nret == NUM_OVER)
msgq(sp, M_ERR, "153|Count overflow");
else if (nret == NUM_UNDER)
msgq(sp, M_ERR, "154|Count underflow");
else
msgq(sp, M_SYSERR, NULL);
return (1);
}
/*
* In historic vi, the count was inclusive from the
* second address.
*/
cmdp->addr1.lno = cmdp->addr2.lno;
cmdp->addr2.lno += lno - 1;
if (!db_exist(sp, cmdp->addr2.lno) &&
db_last(sp, &cmdp->addr2.lno))
return (1);
break;
case '#':
nflag = 1;
break;
case 'c':
sp->c_suffix = !sp->c_suffix;
/* Ex text structure initialization. */
if (F_ISSET(sp, SC_EX)) {
memset(&tiq, 0, sizeof(TEXTH));
CIRCLEQ_INIT(&tiq);
}
break;
case 'g':
sp->g_suffix = !sp->g_suffix;
break;
case 'l':
lflag = 1;
break;
case 'p':
pflag = 1;
break;
case 'r':
if (LF_ISSET(SUB_FIRST)) {
msgq(sp, M_ERR,
"155|Regular expression specified; r flag meaningless");
return (1);
}
if (!F_ISSET(sp, SC_RE_SEARCH)) {
ex_emsg(sp, NULL, EXM_NOPREVRE);
return (1);
}
rflag = 1;
re = &sp->re_c;
break;
default:
goto usage;
}
if (*st != '\0' || (!rflag && LF_ISSET(SUB_MUSTSETR))) {
usage: ex_emsg(sp, cmdp->cmd->usage, EXM_USAGE);
return (1);
}
noargs: if (F_ISSET(sp, SC_VI) && sp->c_suffix && (lflag || nflag || pflag)) {
msgq(sp, M_ERR,
"156|The #, l and p flags may not be combined with the c flag in vi mode");
return (1);
}
/*
* bp: if interactive, line cache
* blen: if interactive, line cache length
* lb: build buffer pointer.
* lbclen: current length of built buffer.
* lblen; length of build buffer.
*/
bp = lb = NULL;
blen = lbclen = lblen = 0;
/* For each line... */
lno = cmdp->addr1.lno == 0 ? 1 : cmdp->addr1.lno;
for (matched = quit = 0,
elno = cmdp->addr2.lno; !quit && lno <= elno; ++lno) {
/* Someone's unhappy, time to stop. */
if (INTERRUPTED(sp))
break;
/* Get the line. */
if (db_get(sp, lno, DBG_FATAL, &st, &llen))
goto err;
/*
* Make a local copy if doing confirmation -- when calling
* the confirm routine we're likely to lose the cached copy.
*/
if (sp->c_suffix) {
if (bp == NULL) {
GET_SPACE_RETW(sp, bp, blen, llen);
} else
ADD_SPACE_RETW(sp, bp, blen, llen);
MEMCPYW(bp, st, llen);
st = bp;
}
/* Start searching from the beginning. */
offset = 0;
len = llen;
/* Reset the build buffer offset. */
lbclen = 0;
/* Reset empty match flag. */
empty_ok = 1;
/*
* We don't want to have to do a setline if the line didn't
* change -- keep track of whether or not this line changed.
* If doing confirmations, don't want to keep setting the
* line if change is refused -- keep track of substitutions.
*/
didsub = linechanged = 0;
/* New line, do an EOL match. */
do_eol_match = 1;
/* It's not nul terminated, but we pretend it is. */
eflags = REG_STARTEND;
/*
* The search area is from st + offset to the EOL.
*
* Generally, match[0].rm_so is the offset of the start
* of the match from the start of the search, and offset
* is the offset of the start of the last search.
*/
nextmatch: match[0].rm_so = 0;
match[0].rm_eo = len;
/* Get the next match. */
eval = regexec(re, st + offset, 10, match, eflags);
/*
* There wasn't a match or if there was an error, deal with
* it. If there was a previous match in this line, resolve
* the changes into the database. Otherwise, just move on.
*/
if (eval == REG_NOMATCH)
goto endmatch;
if (eval != 0) {
re_error(sp, eval, re);
goto err;
}
matched = 1;
/* Only the first search can match an anchored expression. */
eflags |= REG_NOTBOL;
/*
* !!!
* It's possible to match 0-length strings -- for example, the
* command s;a*;X;, when matched against the string "aabb" will
* result in "XbXbX", i.e. the matches are "aa", the space
* between the b's and the space between the b's and the end of
* the string. There is a similar space between the beginning
* of the string and the a's. The rule that we use (because vi
* historically used it) is that any 0-length match, occurring
* immediately after a match, is ignored. Otherwise, the above
* example would have resulted in "XXbXbX". Another example is
* incorrectly using " *" to replace groups of spaces with one
* space.
*
* The way we do this is that if we just had a successful match,
* the starting offset does not skip characters, and the match
* is empty, ignore the match and move forward. If there's no
* more characters in the string, we were attempting to match
* after the last character, so quit.
*/
if (!empty_ok && match[0].rm_so == 0 && match[0].rm_eo == 0) {
empty_ok = 1;
if (len == 0)
goto endmatch;
BUILD(sp, st + offset, 1)
++offset;
--len;
goto nextmatch;
}
/* Confirm change. */
if (sp->c_suffix) {
/*
* Set the cursor position for confirmation. Note,
* if we matched on a '$', the cursor may be past
* the end of line.
*/
from.lno = to.lno = lno;
from.cno = match[0].rm_so + offset;
to.cno = match[0].rm_eo + offset;
/*
* Both ex and vi have to correct for a change before
* the first character in the line.
*/
if (llen == 0)
from.cno = to.cno = 0;
if (F_ISSET(sp, SC_VI)) {
/*
* Only vi has to correct for a change after
* the last character in the line.
*
* XXX
* It would be nice to change the vi code so
* that we could display a cursor past EOL.
*/
if (to.cno >= llen)
to.cno = llen - 1;
if (from.cno >= llen)
from.cno = llen - 1;
sp->lno = from.lno;
sp->cno = from.cno;
if (vs_refresh(sp, 1))
goto err;
vs_update(sp, msg_cat(sp,
"169|Confirm change? [n]", NULL), NULL);
if (v_event_get(sp, &ev, 0, 0))
goto err;
switch (ev.e_event) {
case E_CHARACTER:
break;
case E_EOF:
case E_ERR:
case E_INTERRUPT:
goto lquit;
default:
v_event_err(sp, &ev);
goto lquit;
}
} else {
if (ex_print(sp, cmdp, &from, &to, 0) ||
ex_scprint(sp, &from, &to))
goto lquit;
if (ex_txt(sp, &tiq, 0, TXT_CR))
goto err;
ev.e_c = tiq.cqh_first->lb[0];
}
switch (ev.e_c) {
case CH_YES:
break;
default:
case CH_NO:
didsub = 0;
BUILD(sp, st + offset, match[0].rm_eo);
goto skip;
case CH_QUIT:
/* Set the quit/interrupted flags. */
lquit: quit = 1;
F_SET(sp->gp, G_INTERRUPTED);
/*
* Resolve any changes, then return to (and
* exit from) the main loop.
*/
goto endmatch;
}
}
/*
* Set the cursor to the last position changed, converting
* from 1-based to 0-based.
*/
sp->lno = lno;
sp->cno = match[0].rm_so;
/* Copy the bytes before the match into the build buffer. */
BUILD(sp, st + offset, match[0].rm_so);
/* Substitute the matching bytes. */
didsub = 1;
if (re_sub(sp, st + offset, &lb, &lbclen, &lblen, match))
goto err;
/* Set the change flag so we know this line was modified. */
linechanged = 1;
/* Move past the matched bytes. */
skip: offset += match[0].rm_eo;
len -= match[0].rm_eo;
/* A match cannot be followed by an empty pattern. */
empty_ok = 0;
/*
* If doing a global change with confirmation, we have to
* update the screen. The basic idea is to store the line
* so the screen update routines can find it, and restart.
*/
if (didsub && sp->c_suffix && sp->g_suffix) {
/*
* The new search offset will be the end of the
* modified line.
*/
saved_offset = lbclen;
/* Copy the rest of the line. */
if (len)
BUILD(sp, st + offset, len)
/* Set the new offset. */
offset = saved_offset;
/* Store inserted lines, adjusting the build buffer. */
last = 0;
if (sp->newl_cnt) {
for (cnt = 0;
cnt < sp->newl_cnt; ++cnt, ++lno, ++elno) {
if (db_insert(sp, lno,
lb + last, sp->newl[cnt] - last))
goto err;
last = sp->newl[cnt] + 1;
++sp->rptlines[L_ADDED];
}
lbclen -= last;
offset -= last;
sp->newl_cnt = 0;
}
/* Store and retrieve the line. */
if (db_set(sp, lno, lb + last, lbclen))
goto err;
if (db_get(sp, lno, DBG_FATAL, &st, &llen))
goto err;
ADD_SPACE_RETW(sp, bp, blen, llen)
MEMCPYW(bp, st, llen);
st = bp;
len = llen - offset;
/* Restart the build. */
lbclen = 0;
BUILD(sp, st, offset);
/*
* If we haven't already done the after-the-string
* match, do one. Set REG_NOTEOL so the '$' pattern
* only matches once.
*/
if (!do_eol_match)
goto endmatch;
if (offset == len) {
do_eol_match = 0;
eflags |= REG_NOTEOL;
}
goto nextmatch;
}
/*
* If it's a global:
*
* If at the end of the string, do a test for the after
* the string match. Set REG_NOTEOL so the '$' pattern
* only matches once.
*/
if (sp->g_suffix && do_eol_match) {
if (len == 0) {
do_eol_match = 0;
eflags |= REG_NOTEOL;
}
goto nextmatch;
}
endmatch: if (!linechanged)
continue;
/* Copy any remaining bytes into the build buffer. */
if (len)
BUILD(sp, st + offset, len)
/* Store inserted lines, adjusting the build buffer. */
last = 0;
if (sp->newl_cnt) {
for (cnt = 0;
cnt < sp->newl_cnt; ++cnt, ++lno, ++elno) {
if (db_insert(sp,
lno, lb + last, sp->newl[cnt] - last))
goto err;
last = sp->newl[cnt] + 1;
++sp->rptlines[L_ADDED];
}
lbclen -= last;
sp->newl_cnt = 0;
}
/* Store the changed line. */
if (db_set(sp, lno, lb + last, lbclen))
goto err;
/* Update changed line counter. */
if (sp->rptlchange != lno) {
sp->rptlchange = lno;
++sp->rptlines[L_CHANGED];
}
/*
* !!!
* Display as necessary. Historic practice is to only
* display the last line of a line split into multiple
* lines.
*/
if (lflag || nflag || pflag) {
from.lno = to.lno = lno;
from.cno = to.cno = 0;
if (lflag)
(void)ex_print(sp, cmdp, &from, &to, E_C_LIST);
if (nflag)
(void)ex_print(sp, cmdp, &from, &to, E_C_HASH);
if (pflag)
(void)ex_print(sp, cmdp, &from, &to, E_C_PRINT);
}
}
/*
* !!!
* Historically, vi attempted to leave the cursor at the same place if
* the substitution was done at the current cursor position. Otherwise
* it moved it to the first non-blank of the last line changed. There
* were some problems: for example, :s/$/foo/ with the cursor on the
* last character of the line left the cursor on the last character, or
* the & command with multiple occurrences of the matching string in the
* line usually left the cursor in a fairly random position.
*
* We try to do the same thing, with the exception that if the user is
* doing substitution with confirmation, we move to the last line about
* which the user was consulted, as opposed to the last line that they
* actually changed. This prevents a screen flash if the user doesn't
* change many of the possible lines.
*/
if (!sp->c_suffix && (sp->lno != slno || sp->cno != scno)) {
sp->cno = 0;
(void)nonblank(sp, sp->lno, &sp->cno);
}
/*
* If not in a global command, and nothing matched, say so.
* Else, if none of the lines displayed, put something up.
*/
rval = 0;
if (!matched) {
if (!F_ISSET(sp, SC_EX_GLOBAL)) {
msgq(sp, M_ERR, "157|No match found");
goto err;
}
} else if (!lflag && !nflag && !pflag)
F_SET(cmdp, E_AUTOPRINT);
if (0) {
err: rval = 1;
}
if (bp != NULL)
FREE_SPACEW(sp, bp, blen);
if (lb != NULL)
free(lb);
return (rval);
}
/*
* re_compile --
* Compile the RE.
*
* PUBLIC: int re_compile __P((SCR *,
* PUBLIC: CHAR_T *, size_t, CHAR_T **, size_t *, regex_t *, u_int));
*/
int
re_compile(SCR *sp, CHAR_T *ptrn, size_t plen, CHAR_T **ptrnp, size_t *lenp, regex_t *rep, u_int flags)
{
size_t len;
int reflags, replaced, rval;
CHAR_T *p;
/* Set RE flags. */
reflags = 0;
if (LF_ISSET(SEARCH_EXTEND))
reflags |= REG_EXTENDED;
if (LF_ISSET(SEARCH_IC))
reflags |= REG_ICASE;
if (LF_ISSET(SEARCH_LITERAL))
reflags |= REG_NOSPEC;
if (!LF_ISSET(SEARCH_NOOPT | SEARCH_CSCOPE | SEARCH_TAG)) {
if (O_ISSET(sp, O_EXTENDED))
reflags |= REG_EXTENDED;
if (O_ISSET(sp, O_IGNORECASE))
reflags |= REG_ICASE;
if (O_ISSET(sp, O_ICLOWER))
goto iclower;
}
if (LF_ISSET(SEARCH_ICL)) {
iclower: for (p = ptrn, len = plen; len > 0; ++p, --len)
if (ISUPPER(*p))
break;
if (len == 0)
reflags |= REG_ICASE;
}
/* If we're replacing a saved value, clear the old one. */
if (LF_ISSET(SEARCH_CSEARCH) && F_ISSET(sp, SC_RE_SEARCH)) {
regfree(&sp->re_c);
F_CLR(sp, SC_RE_SEARCH);
}
if (LF_ISSET(SEARCH_CSUBST) && F_ISSET(sp, SC_RE_SUBST)) {
regfree(&sp->subre_c);
F_CLR(sp, SC_RE_SUBST);
}
/*
* If we're saving the string, it's a pattern we haven't seen before,
* so convert the vi-style RE's to POSIX 1003.2 RE's. Save a copy for
* later recompilation. Free any previously saved value.
*/
if (ptrnp != NULL) {
replaced = 0;
if (LF_ISSET(SEARCH_CSCOPE)) {
if (re_cscope_conv(sp, &ptrn, &plen, &replaced))
return (1);
/*
* XXX
* Currently, the match-any-<blank> expression used in
* re_cscope_conv() requires extended RE's. This may
* not be right or safe.
*/
reflags |= REG_EXTENDED;
} else if (LF_ISSET(SEARCH_TAG)) {
if (re_tag_conv(sp, &ptrn, &plen, &replaced))
return (1);
} else if (!LF_ISSET(SEARCH_LITERAL))
if (re_conv(sp, &ptrn, &plen, &replaced))
return (1);
/* Discard previous pattern. */
if (*ptrnp != NULL) {
free(*ptrnp);
*ptrnp = NULL;
}
if (lenp != NULL)
*lenp = plen;
/*
* Copy the string into allocated memory.
*
* XXX
* Regcomp isn't 8-bit clean, so the pattern is nul-terminated
* for now. There's just no other solution.
*/
MALLOC(sp, *ptrnp, CHAR_T *, (plen + 1) * sizeof(CHAR_T));
if (*ptrnp != NULL) {
MEMCPYW(*ptrnp, ptrn, plen);
(*ptrnp)[plen] = '\0';
}
/* Free up conversion-routine-allocated memory. */
if (replaced)
FREE_SPACEW(sp, ptrn, 0);
if (*ptrnp == NULL)
return (1);
ptrn = *ptrnp;
}
/*
* XXX
* Regcomp isn't 8-bit clean, so we just lost if the pattern
* contained a nul. Bummer!
*/
if ((rval = regcomp(rep, ptrn, /* plen, */ reflags)) != 0) {
if (LF_ISSET(SEARCH_MSG))
re_error(sp, rval, rep);
return (1);
}
if (LF_ISSET(SEARCH_CSEARCH))
F_SET(sp, SC_RE_SEARCH);
if (LF_ISSET(SEARCH_CSUBST))
F_SET(sp, SC_RE_SUBST);
return (0);
}
/*
* re_conv --
* Convert vi's regular expressions into something that the
* the POSIX 1003.2 RE functions can handle.
*
* There are three conversions we make to make vi's RE's (specifically
* the global, search, and substitute patterns) work with POSIX RE's.
*
* 1: If O_MAGIC is not set, strip backslashes from the magic character
* set (.[*~) that have them, and add them to the ones that don't.
* 2: If O_MAGIC is not set, the string "\~" is replaced with the text
* from the last substitute command's replacement string. If O_MAGIC
* is set, it's the string "~".
* 3: The pattern \<ptrn\> does "word" searches, convert it to use the
* new RE escapes.
*
* !!!/XXX
* This doesn't exactly match the historic behavior of vi because we do
* the ~ substitution before calling the RE engine, so magic characters
* in the replacement string will be expanded by the RE engine, and they
* weren't historically. It's a bug.
*/
static int
re_conv(SCR *sp, CHAR_T **ptrnp, size_t *plenp, int *replacedp)
{
size_t blen, len, needlen;
int magic;
CHAR_T *bp, *p, *t;
/*
* First pass through, we figure out how much space we'll need.
* We do it in two passes, on the grounds that most of the time
* the user is doing a search and won't have magic characters.
* That way we can skip most of the memory allocation and copies.
*/
magic = 0;
for (p = *ptrnp, len = *plenp, needlen = 0; len > 0; ++p, --len)
switch (*p) {
case '\\':
if (len > 1) {
--len;
switch (*++p) {
case '<':
magic = 1;
needlen += RE_WSTART_LEN + 1;
break;
case '>':
magic = 1;
needlen += RE_WSTOP_LEN + 1;
break;
case '~':
if (!O_ISSET(sp, O_MAGIC)) {
magic = 1;
needlen += sp->repl_len;
}
break;
case '.':
case '[':
case '*':
if (!O_ISSET(sp, O_MAGIC)) {
magic = 1;
needlen += 1;
}
break;
default:
needlen += 2;
}
} else
needlen += 1;
break;
case '~':
if (O_ISSET(sp, O_MAGIC)) {
magic = 1;
needlen += sp->repl_len;
}
break;
case '.':
case '[':
case '*':
if (!O_ISSET(sp, O_MAGIC)) {
magic = 1;
needlen += 2;
}
break;
default:
needlen += 1;
break;
}
if (!magic) {
*replacedp = 0;
return (0);
}
/* Get enough memory to hold the final pattern. */
*replacedp = 1;
GET_SPACE_RETW(sp, bp, blen, needlen);
for (p = *ptrnp, len = *plenp, t = bp; len > 0; ++p, --len)
switch (*p) {
case '\\':
if (len > 1) {
--len;
switch (*++p) {
case '<':
MEMCPY(t,
RE_WSTART, RE_WSTART_LEN);
t += RE_WSTART_LEN;
break;
case '>':
MEMCPY(t,
RE_WSTOP, RE_WSTOP_LEN);
t += RE_WSTOP_LEN;
break;
case '~':
if (O_ISSET(sp, O_MAGIC))
*t++ = '~';
else {
MEMCPYW(t,
sp->repl, sp->repl_len);
t += sp->repl_len;
}
break;
case '.':
case '[':
case '*':
if (O_ISSET(sp, O_MAGIC))
*t++ = '\\';
*t++ = *p;
break;
default:
*t++ = '\\';
*t++ = *p;
}
} else
*t++ = '\\';
break;
case '~':
if (O_ISSET(sp, O_MAGIC)) {
MEMCPYW(t, sp->repl, sp->repl_len);
t += sp->repl_len;
} else
*t++ = '~';
break;
case '.':
case '[':
case '*':
if (!O_ISSET(sp, O_MAGIC))
*t++ = '\\';
*t++ = *p;
break;
default:
*t++ = *p;
break;
}
*ptrnp = bp;
*plenp = t - bp;
return (0);
}
/*
* re_tag_conv --
* Convert a tags search path into something that the POSIX
* 1003.2 RE functions can handle.
*/
static int
re_tag_conv(SCR *sp, CHAR_T **ptrnp, size_t *plenp, int *replacedp)
{
size_t blen, len;
int lastdollar;
CHAR_T *bp, *p, *t;
len = *plenp;
/* Max memory usage is 2 times the length of the string. */
*replacedp = 1;
GET_SPACE_RETW(sp, bp, blen, len * 2);
p = *ptrnp;
t = bp;
/* If the last character is a '/' or '?', we just strip it. */
if (len > 0 && (p[len - 1] == '/' || p[len - 1] == '?'))
--len;
/* If the next-to-last or last character is a '$', it's magic. */
if (len > 0 && p[len - 1] == '$') {
--len;
lastdollar = 1;
} else
lastdollar = 0;
/* If the first character is a '/' or '?', we just strip it. */
if (len > 0 && (p[0] == '/' || p[0] == '?')) {
++p;
--len;
}
/* If the first or second character is a '^', it's magic. */
if (p[0] == '^') {
*t++ = *p++;
--len;
}
/*
* Escape every other magic character we can find, meanwhile stripping
* the backslashes ctags inserts when escaping the search delimiter
* characters.
*/
for (; len > 0; --len) {
if (p[0] == '\\' && (p[1] == '/' || p[1] == '?')) {
++p;
--len;
} else if (strchr("^.[]$*", p[0]))
*t++ = '\\';
*t++ = *p++;
}
if (lastdollar)
*t++ = '$';
*ptrnp = bp;
*plenp = t - bp;
return (0);
}
/*
* re_cscope_conv --
* Convert a cscope search path into something that the POSIX
* 1003.2 RE functions can handle.
*/
static int
re_cscope_conv(SCR *sp, CHAR_T **ptrnp, size_t *plenp, int *replacedp)
{
size_t blen, len, nspaces;
CHAR_T *bp, *t;
CHAR_T *p;
const CHAR_T *wp;
size_t wlen;
/*
* Each space in the source line printed by cscope represents an
* arbitrary sequence of spaces, tabs, and comments.
*/
#define CSCOPE_RE_SPACE "([ \t]|/\\*([^*]|\\*/)*\\*/)*"
#define CSCOPE_LEN sizeof(CSCOPE_RE_SPACE) - 1
CHAR2INT(sp, CSCOPE_RE_SPACE, CSCOPE_LEN, wp, wlen);
for (nspaces = 0, p = *ptrnp, len = *plenp; len > 0; ++p, --len)
if (*p == ' ')
++nspaces;
/*
* Allocate plenty of space:
* the string, plus potential escaping characters;
* nspaces + 2 copies of CSCOPE_RE_SPACE;
* ^, $, nul terminator characters.
*/
*replacedp = 1;
len = (p - *ptrnp) * 2 + (nspaces + 2) * sizeof(CSCOPE_RE_SPACE) + 3;
GET_SPACE_RETW(sp, bp, blen, len);
p = *ptrnp;
t = bp;
*t++ = '^';
MEMCPYW(t, wp, wlen);
t += wlen;
for (len = *plenp; len > 0; ++p, --len)
if (*p == ' ') {
MEMCPYW(t, wp, wlen);
t += wlen;
} else {
if (strchr("\\^.[]$*+?()|{}", *p))
*t++ = '\\';
*t++ = *p;
}
MEMCPYW(t, wp, wlen);
t += wlen;
*t++ = '$';
*ptrnp = bp;
*plenp = t - bp;
return (0);
}
/*
* re_error --
* Report a regular expression error.
*
* PUBLIC: void re_error __P((SCR *, int, regex_t *));
*/
void
re_error(SCR *sp, int errcode, regex_t *preg)
{
size_t sz;
char *oe;
sz = regerror(errcode, preg, NULL, 0);
if ((oe = malloc(sz)) == NULL)
msgq(sp, M_SYSERR, NULL);
else {
(void)regerror(errcode, preg, oe, sz);
msgq(sp, M_ERR, "RE error: %s", oe);
free(oe);
}
}
/*
* re_sub --
* Do the substitution for a regular expression.
*/
static int
re_sub(SCR *sp, CHAR_T *ip, CHAR_T **lbp, size_t *lbclenp, size_t *lblenp, regmatch_t *match)
/* Input line. */
{
enum { C_NOT_SET, C_LOWER, C_ONE_LOWER, C_ONE_UPPER, C_UPPER } conv;
size_t lbclen, lblen; /* Local copies. */
size_t mlen; /* Match length. */
size_t rpl; /* Remaining replacement length. */
CHAR_T *rp; /* Replacement pointer. */
int ch;
int no; /* Match replacement offset. */
CHAR_T *p, *t; /* Buffer pointers. */
CHAR_T *lb; /* Local copies. */
lb = *lbp; /* Get local copies. */
lbclen = *lbclenp;
lblen = *lblenp;
/*
* QUOTING NOTE:
*
* There are some special sequences that vi provides in the
* replacement patterns.
* & string the RE matched (\& if nomagic set)
* \# n-th regular subexpression
* \E end \U, \L conversion
* \e end \U, \L conversion
* \l convert the next character to lower-case
* \L convert to lower-case, until \E, \e, or end of replacement
* \u convert the next character to upper-case
* \U convert to upper-case, until \E, \e, or end of replacement
*
* Otherwise, since this is the lowest level of replacement, discard
* all escaping characters. This (hopefully) matches historic practice.
*/
#define OUTCH(ch, nltrans) { \
CHAR_T __ch = (ch); \
u_int __value = KEY_VAL(sp, __ch); \
if (nltrans && (__value == K_CR || __value == K_NL)) { \
NEEDNEWLINE(sp); \
sp->newl[sp->newl_cnt++] = lbclen; \
} else if (conv != C_NOT_SET) { \
switch (conv) { \
case C_ONE_LOWER: \
conv = C_NOT_SET; \
/* FALLTHROUGH */ \
case C_LOWER: \
if (ISUPPER(__ch)) \
__ch = TOLOWER(__ch); \
break; \
case C_ONE_UPPER: \
conv = C_NOT_SET; \
/* FALLTHROUGH */ \
case C_UPPER: \
if (ISLOWER(__ch)) \
__ch = TOUPPER(__ch); \
break; \
default: \
abort(); \
} \
} \
NEEDSP(sp, 1, p); \
*p++ = __ch; \
++lbclen; \
}
conv = C_NOT_SET;
for (rp = sp->repl, rpl = sp->repl_len, p = lb + lbclen; rpl--;) {
switch (ch = *rp++) {
case '&':
if (O_ISSET(sp, O_MAGIC)) {
no = 0;
goto subzero;
}
break;
case '\\':
if (rpl == 0)
break;
--rpl;
switch (ch = *rp) {
case '&':
++rp;
if (!O_ISSET(sp, O_MAGIC)) {
no = 0;
goto subzero;
}
break;
case '0': case '1': case '2': case '3': case '4':
case '5': case '6': case '7': case '8': case '9':
no = *rp++ - '0';
subzero: if (match[no].rm_so == -1 ||
match[no].rm_eo == -1)
break;
mlen = match[no].rm_eo - match[no].rm_so;
for (t = ip + match[no].rm_so; mlen--; ++t)
OUTCH(*t, 0);
continue;
case 'e':
case 'E':
++rp;
conv = C_NOT_SET;
continue;
case 'l':
++rp;
conv = C_ONE_LOWER;
continue;
case 'L':
++rp;
conv = C_LOWER;
continue;
case 'u':
++rp;
conv = C_ONE_UPPER;
continue;
case 'U':
++rp;
conv = C_UPPER;
continue;
default:
++rp;
break;
}
}
OUTCH(ch, 1);
}
*lbp = lb; /* Update caller's information. */
*lbclenp = lbclen;
*lblenp = lblen;
return (0);
}