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mksh/edit.c
tg 23afb6dbb8 merge “upper bound Emacs mode command repeat by input line length” from 
oksh (slightly different implementation) and remark better plans (which
doesn’t mean bounding the repeat counter is bad, though…)
2011-10-07 19:45:08 +00:00

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/* $OpenBSD: edit.c,v 1.34 2010/05/20 01:13:07 fgsch Exp $ */
/* $OpenBSD: edit.h,v 1.9 2011/05/30 17:14:35 martynas Exp $ */
/* $OpenBSD: emacs.c,v 1.44 2011/09/05 04:50:33 marco Exp $ */
/* $OpenBSD: vi.c,v 1.26 2009/06/29 22:50:19 martynas Exp $ */
/*-
* Copyright (c) 2003, 2004, 2005, 2006, 2007, 2008, 2009, 2010, 2011
* Thorsten Glaser <tg@mirbsd.org>
*
* Provided that these terms and disclaimer and all copyright notices
* are retained or reproduced in an accompanying document, permission
* is granted to deal in this work without restriction, including un-
* limited rights to use, publicly perform, distribute, sell, modify,
* merge, give away, or sublicence.
*
* This work is provided "AS IS" and WITHOUT WARRANTY of any kind, to
* the utmost extent permitted by applicable law, neither express nor
* implied; without malicious intent or gross negligence. In no event
* may a licensor, author or contributor be held liable for indirect,
* direct, other damage, loss, or other issues arising in any way out
* of dealing in the work, even if advised of the possibility of such
* damage or existence of a defect, except proven that it results out
* of said person's immediate fault when using the work as intended.
*/
#include "sh.h"
__RCSID("$MirOS: src/bin/mksh/edit.c,v 1.222 2011/10/07 19:45:08 tg Exp $");
/*
* in later versions we might use libtermcap for this, but since external
* dependencies are problematic, this has not yet been decided on; another
* good string is "\033c" except on hardware terminals like the DEC VT420
* which do a full power cycle then...
*/
#ifndef MKSH_CLS_STRING
#define MKSH_CLS_STRING "\033[;H\033[J"
#endif
#ifndef MKSH_CLRTOEOL_STRING
#define MKSH_CLRTOEOL_STRING "\033[K"
#endif
/* tty driver characters we are interested in */
typedef struct {
int erase;
int kill;
int werase;
int intr;
int quit;
int eof;
} X_chars;
static X_chars edchars;
/* x_cf_glob() flags */
#define XCF_COMMAND BIT(0) /* Do command completion */
#define XCF_FILE BIT(1) /* Do file completion */
#define XCF_FULLPATH BIT(2) /* command completion: store full path */
#define XCF_COMMAND_FILE (XCF_COMMAND | XCF_FILE)
#define XCF_IS_COMMAND BIT(3) /* return flag: is command */
#define XCF_IS_SUBGLOB BIT(4) /* return flag: is $FOO or ~foo substitution */
#define XCF_IS_EXTGLOB BIT(5) /* return flag: is foo* expansion */
static char editmode;
static int xx_cols; /* for Emacs mode */
static int modified; /* buffer has been "modified" */
static char holdbuf[LINE]; /* place to hold last edit buffer */
static int x_getc(void);
static void x_putcf(int);
static void x_mode(bool);
static int x_do_comment(char *, ssize_t, ssize_t *);
static void x_print_expansions(int, char *const *, bool);
static int x_cf_glob(int *, const char *, int, int, int *, int *, char ***);
static size_t x_longest_prefix(int, char *const *);
static int x_basename(const char *, const char *);
static void x_free_words(int, char **);
static int x_escape(const char *, size_t, int (*)(const char *, size_t));
static int x_emacs(char *, size_t);
static void x_init_emacs(void);
static void x_init_prompt(void);
#if !MKSH_S_NOVI
static int x_vi(char *, size_t);
#endif
#define x_flush() shf_flush(shl_out)
#ifdef MKSH_SMALL
#define x_putc(c) x_putcf(c)
#else
#define x_putc(c) shf_putc((c), shl_out)
#endif
static int path_order_cmp(const void *aa, const void *bb);
static void glob_table(const char *, XPtrV *, struct table *);
static void glob_path(int flags, const char *, XPtrV *, const char *);
static int x_file_glob(int, char *, char ***);
static int x_command_glob(int, char *, char ***);
static int x_locate_word(const char *, int, int, int *, bool *);
static int x_e_getmbc(char *);
static int x_e_rebuildline(const char *);
/* +++ generic editing functions +++ */
/* Called from main */
void
x_init(void)
{
/*
* Set edchars to -2 to force initial binding, except
* we need default values for some deficient systems…
*/
edchars.erase = edchars.kill = edchars.intr = edchars.quit =
edchars.eof = -2;
/* ^W */
edchars.werase = 027;
x_init_emacs();
}
/*
* read an edited command line
*/
int
x_read(char *buf, size_t len)
{
int i;
x_mode(true);
modified = 1;
if (Flag(FEMACS) || Flag(FGMACS))
i = x_emacs(buf, len);
#if !MKSH_S_NOVI
else if (Flag(FVI))
i = x_vi(buf, len);
#endif
else
/* internal error */
i = -1;
editmode = 0;
x_mode(false);
return (i);
}
/* tty I/O */
static int
x_getc(void)
{
char c;
ssize_t n;
while ((n = blocking_read(STDIN_FILENO, &c, 1)) < 0 && errno == EINTR)
if (trap) {
x_mode(false);
runtraps(0);
#ifdef SIGWINCH
if (got_winch) {
change_winsz();
if (x_cols != xx_cols && editmode == 1) {
/* redraw line in Emacs mode */
xx_cols = x_cols;
x_e_rebuildline(MKSH_CLRTOEOL_STRING);
}
}
#endif
x_mode(true);
}
return ((n == 1) ? (int)(unsigned char)c : -1);
}
static void
x_putcf(int c)
{
shf_putc(c, shl_out);
}
/*********************************
* Misc common code for vi/emacs *
*********************************/
/*-
* Handle the commenting/uncommenting of a line.
* Returns:
* 1 if a carriage return is indicated (comment added)
* 0 if no return (comment removed)
* -1 if there is an error (not enough room for comment chars)
* If successful, *lenp contains the new length. Note: cursor should be
* moved to the start of the line after (un)commenting.
*/
static int
x_do_comment(char *buf, ssize_t bsize, ssize_t *lenp)
{
ssize_t i, j, len = *lenp;
if (len == 0)
/* somewhat arbitrary - it's what AT&T ksh does */
return (1);
/* Already commented? */
if (buf[0] == '#') {
bool saw_nl = false;
for (j = 0, i = 1; i < len; i++) {
if (!saw_nl || buf[i] != '#')
buf[j++] = buf[i];
saw_nl = buf[i] == '\n';
}
*lenp = j;
return (0);
} else {
int n = 1;
/* See if there's room for the #s - 1 per \n */
for (i = 0; i < len; i++)
if (buf[i] == '\n')
n++;
if (len + n >= bsize)
return (-1);
/* Now add them... */
for (i = len, j = len + n; --i >= 0; ) {
if (buf[i] == '\n')
buf[--j] = '#';
buf[--j] = buf[i];
}
buf[0] = '#';
*lenp += n;
return (1);
}
}
/****************************************************
* Common file/command completion code for vi/emacs *
****************************************************/
static void
x_print_expansions(int nwords, char * const *words, bool is_command)
{
bool use_copy = false;
int prefix_len;
XPtrV l = { NULL, NULL, NULL };
/*
* Check if all matches are in the same directory (in this
* case, we want to omit the directory name)
*/
if (!is_command &&
(prefix_len = x_longest_prefix(nwords, words)) > 0) {
int i;
/* Special case for 1 match (prefix is whole word) */
if (nwords == 1)
prefix_len = x_basename(words[0], NULL);
/* Any (non-trailing) slashes in non-common word suffixes? */
for (i = 0; i < nwords; i++)
if (x_basename(words[i] + prefix_len, NULL) >
prefix_len)
break;
/* All in same directory? */
if (i == nwords) {
while (prefix_len > 0 && words[0][prefix_len - 1] != '/')
prefix_len--;
use_copy = true;
XPinit(l, nwords + 1);
for (i = 0; i < nwords; i++)
XPput(l, words[i] + prefix_len);
XPput(l, NULL);
}
}
/*
* Enumerate expansions
*/
x_putc('\r');
x_putc('\n');
pr_list(use_copy ? (char **)XPptrv(l) : words);
if (use_copy)
/* not x_free_words() */
XPfree(l);
}
/**
* Do file globbing:
* - appends * to (copy of) str if no globbing chars found
* - does expansion, checks for no match, etc.
* - sets *wordsp to array of matching strings
* - returns number of matching strings
*/
static int
x_file_glob(int flags MKSH_A_UNUSED, char *toglob, char ***wordsp)
{
char **words;
int nwords, i, idx;
bool escaping;
XPtrV w;
struct source *s, *sold;
/* remove all escaping backward slashes */
escaping = false;
for (i = 0, idx = 0; toglob[i]; i++) {
if (toglob[i] == '\\' && !escaping) {
escaping = true;
continue;
}
/* specially escape escaped [ or $ or ` for globbing */
if (escaping && (toglob[i] == '[' ||
toglob[i] == '$' || toglob[i] == '`'))
toglob[idx++] = QCHAR;
toglob[idx] = toglob[i];
idx++;
if (escaping)
escaping = false;
}
toglob[idx] = '\0';
/*
* Convert "foo*" (toglob) to an array of strings (words)
*/
sold = source;
s = pushs(SWSTR, ATEMP);
s->start = s->str = toglob;
source = s;
if (yylex(ONEWORD | LQCHAR) != LWORD) {
source = sold;
internal_warningf("%s: %s", "fileglob", "bad substitution");
return (0);
}
source = sold;
XPinit(w, 32);
expand(yylval.cp, &w, DOGLOB | DOTILDE | DOMARKDIRS);
XPput(w, NULL);
words = (char **)XPclose(w);
for (nwords = 0; words[nwords]; nwords++)
;
if (nwords == 1) {
struct stat statb;
/*
* Check if globbing failed (returned glob pattern),
* but be careful (e.g. toglob == "ab*" when the file
* "ab*" exists is not an error).
* Also, check for empty result - happens if we tried
* to glob something which evaluated to an empty
* string (e.g., "$FOO" when there is no FOO, etc).
*/
if ((strcmp(words[0], toglob) == 0 &&
stat(words[0], &statb) < 0) ||
words[0][0] == '\0') {
x_free_words(nwords, words);
words = NULL;
nwords = 0;
}
}
if ((*wordsp = nwords ? words : NULL) == NULL && words != NULL)
x_free_words(nwords, words);
return (nwords);
}
/* Data structure used in x_command_glob() */
struct path_order_info {
char *word;
int base;
int path_order;
};
/* Compare routine used in x_command_glob() */
static int
path_order_cmp(const void *aa, const void *bb)
{
const struct path_order_info *a = (const struct path_order_info *)aa;
const struct path_order_info *b = (const struct path_order_info *)bb;
int t;
t = strcmp(a->word + a->base, b->word + b->base);
return (t ? t : a->path_order - b->path_order);
}
static int
x_command_glob(int flags, char *toglob, char ***wordsp)
{
char *pat, *fpath;
int nwords;
XPtrV w;
struct block *l;
/* Convert "foo*" (toglob) to a pattern for future use */
pat = evalstr(toglob, DOPAT | DOTILDE);
XPinit(w, 32);
glob_table(pat, &w, &keywords);
glob_table(pat, &w, &aliases);
glob_table(pat, &w, &builtins);
for (l = e->loc; l; l = l->next)
glob_table(pat, &w, &l->funs);
glob_path(flags, pat, &w, path);
if ((fpath = str_val(global("FPATH"))) != null)
glob_path(flags, pat, &w, fpath);
nwords = XPsize(w);
if (!nwords) {
*wordsp = NULL;
XPfree(w);
return (0);
}
/* Sort entries */
if (flags & XCF_FULLPATH) {
/* Sort by basename, then path order */
struct path_order_info *info, *last_info = NULL;
char **words = (char **)XPptrv(w);
int i, path_order = 0;
info = (struct path_order_info *)
alloc2(nwords, sizeof(struct path_order_info), ATEMP);
for (i = 0; i < nwords; i++) {
info[i].word = words[i];
info[i].base = x_basename(words[i], NULL);
if (!last_info || info[i].base != last_info->base ||
strncmp(words[i], last_info->word, info[i].base) != 0) {
last_info = &info[i];
path_order++;
}
info[i].path_order = path_order;
}
qsort(info, nwords, sizeof(struct path_order_info),
path_order_cmp);
for (i = 0; i < nwords; i++)
words[i] = info[i].word;
afree(info, ATEMP);
} else {
/* Sort and remove duplicate entries */
char **words = (char **)XPptrv(w);
int i, j;
qsort(words, nwords, sizeof(void *), xstrcmp);
for (i = j = 0; i < nwords - 1; i++) {
if (strcmp(words[i], words[i + 1]))
words[j++] = words[i];
else
afree(words[i], ATEMP);
}
words[j++] = words[i];
nwords = j;
w.cur = (void **)&words[j];
}
XPput(w, NULL);
*wordsp = (char **)XPclose(w);
return (nwords);
}
#define IS_WORDC(c) (!ctype(c, C_LEX1) && (c) != '\'' && (c) != '"' && \
(c) != '`' && (c) != '=' && (c) != ':')
static int
x_locate_word(const char *buf, int buflen, int pos, int *startp,
bool *is_commandp)
{
int start, end;
/* Bad call? Probably should report error */
if (pos < 0 || pos > buflen) {
*startp = pos;
*is_commandp = false;
return (0);
}
/* The case where pos == buflen happens to take care of itself... */
start = pos;
/*
* Keep going backwards to start of word (has effect of allowing
* one blank after the end of a word)
*/
for (; (start > 0 && IS_WORDC(buf[start - 1])) ||
(start > 1 && buf[start - 2] == '\\'); start--)
;
/* Go forwards to end of word */
for (end = start; end < buflen && IS_WORDC(buf[end]); end++) {
if (buf[end] == '\\' && (end + 1) < buflen)
end++;
}
if (is_commandp) {
bool iscmd;
int p = start - 1;
/* Figure out if this is a command */
while (p >= 0 && ksh_isspace(buf[p]))
p--;
iscmd = p < 0 || vstrchr(";|&()`", buf[p]);
if (iscmd) {
/*
* If command has a /, path, etc. is not searched;
* only current directory is searched which is just
* like file globbing.
*/
for (p = start; p < end; p++)
if (buf[p] == '/')
break;
iscmd = p == end;
}
*is_commandp = iscmd;
}
*startp = start;
return (end - start);
}
static int
x_cf_glob(int *flagsp, const char *buf, int buflen, int pos, int *startp,
int *endp, char ***wordsp)
{
int len, nwords = 0;
char **words = NULL;
bool is_command;
len = x_locate_word(buf, buflen, pos, startp, &is_command);
if (!((*flagsp) & XCF_COMMAND))
is_command = false;
/*
* Don't do command globing on zero length strings - it takes too
* long and isn't very useful. File globs are more likely to be
* useful, so allow these.
*/
if (len == 0 && is_command)
return (0);
if (len >= 0) {
char *toglob, *s;
bool saw_dollar = false, saw_glob = false;
/*
* Given a string, copy it and possibly add a '*' to the end.
*/
strndupx(toglob, buf + *startp, len + /* the '*' */ 1, ATEMP);
toglob[len] = '\0';
/*
* If the pathname contains a wildcard (an unquoted '*',
* '?', or '[') or parameter expansion ('$'), or a ~username
* with no trailing slash, then it is globbed based on that
* value (i.e., without the appended '*').
*/
for (s = toglob; *s; s++) {
if (*s == '\\' && s[1])
s++;
else if (*s == '$') {
/*
* Do not append a space after the value
* if expanding a parameter substitution
* as in: “cat $HOME/.ss↹” (LP: #710539)
*/
saw_dollar = true;
} else if (*s == '?' || *s == '*' || *s == '[' ||
/* ?() *() +() @() !() but two already checked */
(s[1] == '(' /*)*/ &&
(*s == '+' || *s == '@' || *s == '!'))) {
/* just expand based on the extglob */
saw_glob = true;
}
}
if (saw_glob) {
/*
* do not append a glob, we already have a
* glob or extglob; it works even if this is
* a parameter expansion as we have a glob
*/
*flagsp |= XCF_IS_EXTGLOB;
} else if (saw_dollar ||
(*toglob == '~' && !vstrchr(toglob, '/'))) {
/* do not append a glob, nor later a space */
*flagsp |= XCF_IS_SUBGLOB;
} else {
/* append a glob, this is not just a tilde */
toglob[len] = '*';
toglob[len + 1] = '\0';
}
/*
* Expand (glob) it now.
*/
nwords = is_command ?
x_command_glob(*flagsp, toglob, &words) :
x_file_glob(*flagsp, toglob, &words);
afree(toglob, ATEMP);
}
if (nwords == 0) {
*wordsp = NULL;
return (0);
}
if (is_command)
*flagsp |= XCF_IS_COMMAND;
*wordsp = words;
*endp = *startp + len;
return (nwords);
}
/*
* Find longest common prefix
*/
static size_t
x_longest_prefix(int nwords, char * const * words)
{
int i;
size_t j, prefix_len;
char *p;
if (nwords <= 0)
return (0);
prefix_len = strlen(words[0]);
for (i = 1; i < nwords; i++)
for (j = 0, p = words[i]; j < prefix_len; j++)
if (p[j] != words[0][j]) {
prefix_len = j;
break;
}
return (prefix_len);
}
static void
x_free_words(int nwords, char **words)
{
while (nwords)
afree(words[--nwords], ATEMP);
afree(words, ATEMP);
}
/*-
* Return the offset of the basename of string s (which ends at se - need not
* be null terminated). Trailing slashes are ignored. If s is just a slash,
* then the offset is 0 (actually, length - 1).
* s Return
* /etc 1
* /etc/ 1
* /etc// 1
* /etc/fo 5
* foo 0
* /// 2
* 0
*/
static int
x_basename(const char *s, const char *se)
{
const char *p;
if (se == NULL)
se = s + strlen(s);
if (s == se)
return (0);
/* Skip trailing slashes */
for (p = se - 1; p > s && *p == '/'; p--)
;
for (; p > s && *p != '/'; p--)
;
if (*p == '/' && p + 1 < se)
p++;
return (p - s);
}
/*
* Apply pattern matching to a table: all table entries that match a pattern
* are added to wp.
*/
static void
glob_table(const char *pat, XPtrV *wp, struct table *tp)
{
struct tstate ts;
struct tbl *te;
ktwalk(&ts, tp);
while ((te = ktnext(&ts)))
if (gmatchx(te->name, pat, false)) {
char *cp;
strdupx(cp, te->name, ATEMP);
XPput(*wp, cp);
}
}
static void
glob_path(int flags, const char *pat, XPtrV *wp, const char *lpath)
{
const char *sp = lpath, *p;
char *xp, **words;
size_t pathlen, patlen, oldsize, newsize, i, j;
XString xs;
patlen = strlen(pat);
checkoktoadd(patlen, 129 + X_EXTRA);
++patlen;
Xinit(xs, xp, patlen + 128, ATEMP);
while (sp) {
xp = Xstring(xs, xp);
if (!(p = cstrchr(sp, ':')))
p = sp + strlen(sp);
pathlen = p - sp;
if (pathlen) {
/*
* Copy sp into xp, stuffing any MAGIC characters
* on the way
*/
const char *s = sp;
XcheckN(xs, xp, pathlen * 2);
while (s < p) {
if (ISMAGIC(*s))
*xp++ = MAGIC;
*xp++ = *s++;
}
*xp++ = '/';
pathlen++;
}
sp = p;
XcheckN(xs, xp, patlen);
memcpy(xp, pat, patlen);
oldsize = XPsize(*wp);
/* mark dirs */
glob_str(Xstring(xs, xp), wp, 1);
newsize = XPsize(*wp);
/* Check that each match is executable... */
words = (char **)XPptrv(*wp);
for (i = j = oldsize; i < newsize; i++) {
if (ksh_access(words[i], X_OK) == 0) {
words[j] = words[i];
if (!(flags & XCF_FULLPATH))
memmove(words[j], words[j] + pathlen,
strlen(words[j] + pathlen) + 1);
j++;
} else
afree(words[i], ATEMP);
}
wp->cur = (void **)&words[j];
if (!*sp++)
break;
}
Xfree(xs, xp);
}
/*
* if argument string contains any special characters, they will
* be escaped and the result will be put into edit buffer by
* keybinding-specific function
*/
static int
x_escape(const char *s, size_t len, int (*putbuf_func)(const char *, size_t))
{
size_t add = 0, wlen = len;
const char *ifs = str_val(local("IFS", 0));
int rval = 0;
while (wlen - add > 0)
if (vstrchr("\"#$&'()*:;<=>?[\\`{|}", s[add]) ||
vstrchr(ifs, s[add])) {
if (putbuf_func(s, add) != 0) {
rval = -1;
break;
}
putbuf_func(s[add] == '\n' ? "'" : "\\", 1);
putbuf_func(&s[add], 1);
if (s[add] == '\n')
putbuf_func("'", 1);
add++;
wlen -= add;
s += add;
add = 0;
} else
++add;
if (wlen > 0 && rval == 0)
rval = putbuf_func(s, wlen);
return (rval);
}
/* +++ emacs editing mode +++ */
static Area aedit;
#define AEDIT &aedit /* area for kill ring and macro defns */
/* values returned by keyboard functions */
#define KSTD 0
#define KEOL 1 /* ^M, ^J */
#define KINTR 2 /* ^G, ^C */
struct x_ftab {
int (*xf_func)(int c);
const char *xf_name;
short xf_flags;
};
struct x_defbindings {
unsigned char xdb_func; /* XFUNC_* */
unsigned char xdb_tab;
unsigned char xdb_char;
};
#define XF_ARG 1 /* command takes number prefix */
#define XF_NOBIND 2 /* not allowed to bind to function */
#define XF_PREFIX 4 /* function sets prefix */
/* Separator for completion */
#define is_cfs(c) ((c) == ' ' || (c) == '\t' || (c) == '"' || (c) == '\'')
/* Separator for motion */
#define is_mfs(c) (!(ksh_isalnux(c) || (c) == '$' || ((c) & 0x80)))
#define X_NTABS 3 /* normal, meta1, meta2 */
#define X_TABSZ 256 /* size of keydef tables etc */
/*-
* Arguments for do_complete()
* 0 = enumerate M-= complete as much as possible and then list
* 1 = complete M-Esc
* 2 = list M-?
*/
typedef enum {
CT_LIST, /* list the possible completions */
CT_COMPLETE, /* complete to longest prefix */
CT_COMPLIST /* complete and then list (if non-exact) */
} Comp_type;
/*
* The following are used for my horizontal scrolling stuff
*/
static char *xbuf; /* beg input buffer */
static char *xend; /* end input buffer */
static char *xcp; /* current position */
static char *xep; /* current end */
static char *xbp; /* start of visible portion of input buffer */
static char *xlp; /* last char visible on screen */
static int x_adj_ok;
/*
* we use x_adj_done so that functions can tell
* whether x_adjust() has been called while they are active.
*/
static int x_adj_done;
static int x_col;
static int x_displen;
static int x_arg; /* general purpose arg */
static bool x_arg_defaulted; /* x_arg not explicitly set; defaulted to 1 */
static int xlp_valid;
static char **x_histp; /* history position */
static int x_nextcmd; /* for newline-and-next */
static char *xmp; /* mark pointer */
static unsigned char x_last_command;
static unsigned char (*x_tab)[X_TABSZ]; /* key definition */
#ifndef MKSH_SMALL
static char *(*x_atab)[X_TABSZ]; /* macro definitions */
#endif
static unsigned char x_bound[(X_TABSZ * X_NTABS + 7) / 8];
#define KILLSIZE 20
static char *killstack[KILLSIZE];
static int killsp, killtp;
static int x_curprefix;
#ifndef MKSH_SMALL
static char *macroptr; /* bind key macro active? */
#endif
#if !MKSH_S_NOVI
static int cur_col; /* current column on line */
static int pwidth; /* width of prompt */
static int prompt_trunc; /* how much of prompt to truncate */
static int winwidth; /* width of window */
static char *wbuf[2]; /* window buffers */
static int wbuf_len; /* length of window buffers (x_cols - 3) */
static int win; /* window buffer in use */
static char morec; /* more character at right of window */
static int lastref; /* argument to last refresh() */
static int holdlen; /* length of holdbuf */
#endif
static int prompt_redraw; /* 0 if newline forced after prompt */
static int x_ins(const char *);
static void x_delete(int, int);
static int x_bword(void);
static int x_fword(int);
static void x_goto(char *);
static void x_bs3(char **);
static int x_size_str(char *);
static int x_size2(char *, char **);
static void x_zots(char *);
static void x_zotc2(int);
static void x_zotc3(char **);
static void x_load_hist(char **);
static int x_search(char *, int, int);
#ifndef MKSH_SMALL
static int x_search_dir(int);
#endif
static int x_match(char *, char *);
static void x_redraw(int);
static void x_push(int);
static char *x_mapin(const char *, Area *)
MKSH_A_NONNULL((__nonnull__ (1)));
static char *x_mapout(int);
static void x_mapout2(int, char **);
static void x_print(int, int);
static void x_adjust(void);
static void x_e_ungetc(int);
static int x_e_getc(void);
static void x_e_putc2(int);
static void x_e_putc3(const char **);
static void x_e_puts(const char *);
#ifndef MKSH_SMALL
static int x_fold_case(int);
#endif
static char *x_lastcp(void);
static void do_complete(int, Comp_type);
static int unget_char = -1;
static int x_do_ins(const char *, size_t);
static void bind_if_not_bound(int, int, int);
enum emacs_funcs {
#define EMACSFN_ENUMS
#include "emacsfn.h"
XFUNC_MAX
};
#define EMACSFN_DEFNS
#include "emacsfn.h"
static const struct x_ftab x_ftab[] = {
#define EMACSFN_ITEMS
#include "emacsfn.h"
{ 0, NULL, 0 }
};
static struct x_defbindings const x_defbindings[] = {
{ XFUNC_del_back, 0, CTRL('?') },
{ XFUNC_del_bword, 1, CTRL('?') },
{ XFUNC_eot_del, 0, CTRL('D') },
{ XFUNC_del_back, 0, CTRL('H') },
{ XFUNC_del_bword, 1, CTRL('H') },
{ XFUNC_del_bword, 1, 'h' },
{ XFUNC_mv_bword, 1, 'b' },
{ XFUNC_mv_fword, 1, 'f' },
{ XFUNC_del_fword, 1, 'd' },
{ XFUNC_mv_back, 0, CTRL('B') },
{ XFUNC_mv_forw, 0, CTRL('F') },
{ XFUNC_search_char_forw, 0, CTRL(']') },
{ XFUNC_search_char_back, 1, CTRL(']') },
{ XFUNC_newline, 0, CTRL('M') },
{ XFUNC_newline, 0, CTRL('J') },
{ XFUNC_end_of_text, 0, CTRL('_') },
{ XFUNC_abort, 0, CTRL('G') },
{ XFUNC_prev_com, 0, CTRL('P') },
{ XFUNC_next_com, 0, CTRL('N') },
{ XFUNC_nl_next_com, 0, CTRL('O') },
{ XFUNC_search_hist, 0, CTRL('R') },
{ XFUNC_beg_hist, 1, '<' },
{ XFUNC_end_hist, 1, '>' },
{ XFUNC_goto_hist, 1, 'g' },
{ XFUNC_mv_end, 0, CTRL('E') },
{ XFUNC_mv_begin, 0, CTRL('A') },
{ XFUNC_draw_line, 0, CTRL('L') },
{ XFUNC_cls, 1, CTRL('L') },
{ XFUNC_meta1, 0, CTRL('[') },
{ XFUNC_meta2, 0, CTRL('X') },
{ XFUNC_kill, 0, CTRL('K') },
{ XFUNC_yank, 0, CTRL('Y') },
{ XFUNC_meta_yank, 1, 'y' },
{ XFUNC_literal, 0, CTRL('^') },
{ XFUNC_comment, 1, '#' },
{ XFUNC_transpose, 0, CTRL('T') },
{ XFUNC_complete, 1, CTRL('[') },
{ XFUNC_comp_list, 0, CTRL('I') },
{ XFUNC_comp_list, 1, '=' },
{ XFUNC_enumerate, 1, '?' },
{ XFUNC_expand, 1, '*' },
{ XFUNC_comp_file, 1, CTRL('X') },
{ XFUNC_comp_comm, 2, CTRL('[') },
{ XFUNC_list_comm, 2, '?' },
{ XFUNC_list_file, 2, CTRL('Y') },
{ XFUNC_set_mark, 1, ' ' },
{ XFUNC_kill_region, 0, CTRL('W') },
{ XFUNC_xchg_point_mark, 2, CTRL('X') },
{ XFUNC_literal, 0, CTRL('V') },
{ XFUNC_version, 1, CTRL('V') },
{ XFUNC_prev_histword, 1, '.' },
{ XFUNC_prev_histword, 1, '_' },
{ XFUNC_set_arg, 1, '0' },
{ XFUNC_set_arg, 1, '1' },
{ XFUNC_set_arg, 1, '2' },
{ XFUNC_set_arg, 1, '3' },
{ XFUNC_set_arg, 1, '4' },
{ XFUNC_set_arg, 1, '5' },
{ XFUNC_set_arg, 1, '6' },
{ XFUNC_set_arg, 1, '7' },
{ XFUNC_set_arg, 1, '8' },
{ XFUNC_set_arg, 1, '9' },
#ifndef MKSH_SMALL
{ XFUNC_fold_upper, 1, 'U' },
{ XFUNC_fold_upper, 1, 'u' },
{ XFUNC_fold_lower, 1, 'L' },
{ XFUNC_fold_lower, 1, 'l' },
{ XFUNC_fold_capitalise, 1, 'C' },
{ XFUNC_fold_capitalise, 1, 'c' },
#endif
/*
* These for ANSI arrow keys: arguablely shouldn't be here by
* default, but its simpler/faster/smaller than using termcap
* entries.
*/
{ XFUNC_meta2, 1, '[' },
{ XFUNC_meta2, 1, 'O' },
{ XFUNC_prev_com, 2, 'A' },
{ XFUNC_next_com, 2, 'B' },
{ XFUNC_mv_forw, 2, 'C' },
{ XFUNC_mv_back, 2, 'D' },
#ifndef MKSH_SMALL
{ XFUNC_vt_hack, 2, '1' },
{ XFUNC_mv_begin | 0x80, 2, '7' },
{ XFUNC_mv_begin, 2, 'H' },
{ XFUNC_mv_end | 0x80, 2, '4' },
{ XFUNC_mv_end | 0x80, 2, '8' },
{ XFUNC_mv_end, 2, 'F' },
{ XFUNC_del_char | 0x80, 2, '3' },
{ XFUNC_search_hist_up | 0x80, 2, '5' },
{ XFUNC_search_hist_dn | 0x80, 2, '6' },
/* more non-standard ones */
{ XFUNC_edit_line, 2, 'e' }
#endif
};
#ifdef MKSH_SMALL
static void x_modified(void);
static void
x_modified(void)
{
if (!modified) {
x_histp = histptr + 1;
modified = 1;
}
}
#define XFUNC_VALUE(f) (f)
#else
#define x_modified() do { \
if (!modified) { \
x_histp = histptr + 1; \
modified = 1; \
} \
} while (/* CONSTCOND */ 0)
#define XFUNC_VALUE(f) (f & 0x7F)
#endif
static int
x_e_getmbc(char *sbuf)
{
int c, pos = 0;
unsigned char *buf = (unsigned char *)sbuf;
memset(buf, 0, 4);
buf[pos++] = c = x_e_getc();
if (c == -1)
return (-1);
if (UTFMODE) {
if ((buf[0] >= 0xC2) && (buf[0] < 0xF0)) {
c = x_e_getc();
if (c == -1)
return (-1);
if ((c & 0xC0) != 0x80) {
x_e_ungetc(c);
return (1);
}
buf[pos++] = c;
}
if ((buf[0] >= 0xE0) && (buf[0] < 0xF0)) {
/* XXX x_e_ungetc is one-octet only */
buf[pos++] = c = x_e_getc();
if (c == -1)
return (-1);
}
}
return (pos);
}
static void
x_init_prompt(void)
{
x_col = promptlen(prompt);
x_adj_ok = 1;
prompt_redraw = 1;
if (x_col >= xx_cols)
x_col %= xx_cols;
x_displen = xx_cols - 2 - x_col;
x_adj_done = 0;
pprompt(prompt, 0);
if (x_displen < 1) {
x_col = 0;
x_displen = xx_cols - 2;
x_e_putc2('\n');
prompt_redraw = 0;
}
}
static int
x_emacs(char *buf, size_t len)
{
int c, i;
unsigned char f;
xbp = xbuf = buf; xend = buf + len;
xlp = xcp = xep = buf;
*xcp = 0;
xlp_valid = true;
xmp = NULL;
x_curprefix = 0;
x_histp = histptr + 1;
x_last_command = XFUNC_error;
xx_cols = x_cols;
x_init_prompt();
if (x_nextcmd >= 0) {
int off = source->line - x_nextcmd;
if (histptr - history >= off)
x_load_hist(histptr - off);
x_nextcmd = -1;
}
editmode = 1;
while (/* CONSTCOND */ 1) {
x_flush();
if ((c = x_e_getc()) < 0)
return (0);
f = x_curprefix == -1 ? XFUNC_insert :
x_tab[x_curprefix][c];
#ifndef MKSH_SMALL
if (f & 0x80) {
f &= 0x7F;
if ((i = x_e_getc()) != '~')
x_e_ungetc(i);
}
/* avoid bind key macro recursion */
if (macroptr && f == XFUNC_ins_string)
f = XFUNC_insert;
#endif
if (!(x_ftab[f].xf_flags & XF_PREFIX) &&
x_last_command != XFUNC_set_arg) {
x_arg = 1;
x_arg_defaulted = true;
}
i = c | (x_curprefix << 8);
x_curprefix = 0;
switch ((*x_ftab[f].xf_func)(i)) {
case KSTD:
if (!(x_ftab[f].xf_flags & XF_PREFIX))
x_last_command = f;
break;
case KEOL:
i = xep - xbuf;
return (i);
case KINTR:
/* special case for interrupt */
trapsig(SIGINT);
x_mode(false);
unwind(LSHELL);
}
/* ad-hoc hack for fixing the cursor position */
x_goto(xcp);
}
}
static int
x_insert(int c)
{
static int left, pos, save_arg;
static char str[4];
/*
* Should allow tab and control chars.
*/
if (c == 0) {
invmbs:
left = 0;
x_e_putc2(7);
return (KSTD);
}
if (UTFMODE) {
if (((c & 0xC0) == 0x80) && left) {
str[pos++] = c;
if (!--left) {
str[pos] = '\0';
x_arg = save_arg;
while (x_arg--)
x_ins(str);
}
return (KSTD);
}
if (left) {
if (x_curprefix == -1) {
/* flush invalid multibyte */
str[pos] = '\0';
while (save_arg--)
x_ins(str);
}
}
if ((c >= 0xC2) && (c < 0xE0))
left = 1;
else if ((c >= 0xE0) && (c < 0xF0))
left = 2;
else if (c > 0x7F)
goto invmbs;
else
left = 0;
if (left) {
save_arg = x_arg;
pos = 1;
str[0] = c;
return (KSTD);
}
}
left = 0;
str[0] = c;
str[1] = '\0';
while (x_arg--)
x_ins(str);
return (KSTD);
}
#ifndef MKSH_SMALL
static int
x_ins_string(int c)
{
macroptr = x_atab[c >> 8][c & 255];
/*
* we no longer need to bother checking if macroptr is
* not NULL but first char is NUL; x_e_getc() does it
*/
return (KSTD);
}
#endif
static int
x_do_ins(const char *cp, size_t len)
{
if (xep + len >= xend) {
x_e_putc2(7);
return (-1);
}
memmove(xcp + len, xcp, xep - xcp + 1);
memmove(xcp, cp, len);
xcp += len;
xep += len;
x_modified();
return (0);
}
static int
x_ins(const char *s)
{
char *cp = xcp;
int adj = x_adj_done;
if (x_do_ins(s, strlen(s)) < 0)
return (-1);
/*
* x_zots() may result in a call to x_adjust()
* we want xcp to reflect the new position.
*/
xlp_valid = false;
x_lastcp();
x_adj_ok = (xcp >= xlp);
x_zots(cp);
/* has x_adjust() been called? */
if (adj == x_adj_done) {
/* no */
cp = xlp;
while (cp > xcp)
x_bs3(&cp);
}
if (xlp == xep - 1)
x_redraw(xx_cols);
x_adj_ok = 1;
return (0);
}
static int
x_del_back(int c MKSH_A_UNUSED)
{
int i = 0;
if (xcp == xbuf) {
x_e_putc2(7);
return (KSTD);
}
do {
x_goto(xcp - 1);
} while ((++i < x_arg) && (xcp != xbuf));
x_delete(i, false);
return (KSTD);
}
static int
x_del_char(int c MKSH_A_UNUSED)
{
char *cp, *cp2;
int i = 0;
cp = xcp;
while (i < x_arg) {
utf_ptradjx(cp, cp2);
if (cp2 > xep)
break;
cp = cp2;
i++;
}
if (!i) {
x_e_putc2(7);
return (KSTD);
}
x_delete(i, false);
return (KSTD);
}
/* Delete nc chars to the right of the cursor (including cursor position) */
static void
x_delete(int nc, int push)
{
int i, nb, nw;
char *cp;
if (nc == 0)
return;
nw = 0;
cp = xcp;
for (i = 0; i < nc; ++i) {
char *cp2;
int j;
j = x_size2(cp, &cp2);
if (cp2 > xep)
break;
cp = cp2;
nw += j;
}
nb = cp - xcp;
/* nc = i; */
if (xmp != NULL && xmp > xcp) {
if (xcp + nb > xmp)
xmp = xcp;
else
xmp -= nb;
}
/*
* This lets us yank a word we have deleted.
*/
if (push)
x_push(nb);
xep -= nb;
/* Copies the NUL */
memmove(xcp, xcp + nb, xep - xcp + 1);
/* don't redraw */
x_adj_ok = 0;
xlp_valid = false;
x_zots(xcp);
/*
* if we are already filling the line,
* there is no need to ' ', '\b'.
* But if we must, make sure we do the minimum.
*/
if ((i = xx_cols - 2 - x_col) > 0 || xep - xlp == 0) {
nw = i = (nw < i) ? nw : i;
while (i--)
x_e_putc2(' ');
if (x_col == xx_cols - 2) {
x_e_putc2((xep > xlp) ? '>' : (xbp > xbuf) ? '<' : ' ');
++nw;
}
while (nw--)
x_e_putc2('\b');
}
/*x_goto(xcp);*/
x_adj_ok = 1;
xlp_valid = false;
cp = x_lastcp();
while (cp > xcp)
x_bs3(&cp);
x_modified();
return;
}
static int
x_del_bword(int c MKSH_A_UNUSED)
{
x_delete(x_bword(), true);
return (KSTD);
}
static int
x_mv_bword(int c MKSH_A_UNUSED)
{
x_bword();
return (KSTD);
}
static int
x_mv_fword(int c MKSH_A_UNUSED)
{
x_fword(1);
return (KSTD);
}
static int
x_del_fword(int c MKSH_A_UNUSED)
{
x_delete(x_fword(0), true);
return (KSTD);
}
static int
x_bword(void)
{
int nc = 0, nb = 0;
char *cp = xcp;
if (cp == xbuf) {
x_e_putc2(7);
return (0);
}
while (x_arg--) {
while (cp != xbuf && is_mfs(cp[-1])) {
cp--;
nb++;
}
while (cp != xbuf && !is_mfs(cp[-1])) {
cp--;
nb++;
}
}
x_goto(cp);
for (cp = xcp; cp < (xcp + nb); ++nc)
cp += utf_ptradj(cp);
return (nc);
}
static int
x_fword(int move)
{
int nc = 0;
char *cp = xcp, *cp2;
if (cp == xep) {
x_e_putc2(7);
return (0);
}
while (x_arg--) {
while (cp != xep && is_mfs(*cp))
cp++;
while (cp != xep && !is_mfs(*cp))
cp++;
}
for (cp2 = xcp; cp2 < cp; ++nc)
cp2 += utf_ptradj(cp2);
if (move)
x_goto(cp);
return (nc);
}
static void
x_goto(char *cp)
{
if (UTFMODE)
while ((cp > xbuf) && ((*cp & 0xC0) == 0x80))
--cp;
if (cp < xbp || cp >= utf_skipcols(xbp, x_displen)) {
/* we are heading off screen */
xcp = cp;
x_adjust();
} else if (cp < xcp) {
/* move back */
while (cp < xcp)
x_bs3(&xcp);
} else if (cp > xcp) {
/* move forward */
while (cp > xcp)
x_zotc3(&xcp);
}
}
static void
x_bs3(char **p)
{
int i;
(*p)--;
if (UTFMODE)
while (((unsigned char)**p & 0xC0) == 0x80)
(*p)--;
i = x_size2(*p, NULL);
while (i--)
x_e_putc2('\b');
}
static int
x_size_str(char *cp)
{
int size = 0;
while (*cp)
size += x_size2(cp, &cp);
return (size);
}
static int
x_size2(char *cp, char **dcp)
{
int c = *(unsigned char *)cp;
if (UTFMODE && (c > 0x7F))
return (utf_widthadj(cp, (const char **)dcp));
if (dcp)
*dcp = cp + 1;
if (c == '\t')
/* Kludge, tabs are always four spaces. */
return (4);
if (c < ' ' || c == 0x7f)
/* control unsigned char */
return (2);
return (1);
}
static void
x_zots(char *str)
{
int adj = x_adj_done;
x_lastcp();
while (*str && str < xlp && adj == x_adj_done)
x_zotc3(&str);
}
static void
x_zotc2(int c)
{
if (c == '\t') {
/* Kludge, tabs are always four spaces. */
x_e_puts(" ");
} else if (c < ' ' || c == 0x7f) {
x_e_putc2('^');
x_e_putc2(UNCTRL(c));
} else
x_e_putc2(c);
}
static void
x_zotc3(char **cp)
{
unsigned char c = **(unsigned char **)cp;
if (c == '\t') {
/* Kludge, tabs are always four spaces. */
x_e_puts(" ");
(*cp)++;
} else if (c < ' ' || c == 0x7f) {
x_e_putc2('^');
x_e_putc2(UNCTRL(c));
(*cp)++;
} else
x_e_putc3((const char **)cp);
}
static int
x_mv_back(int c MKSH_A_UNUSED)
{
if (xcp == xbuf) {
x_e_putc2(7);
return (KSTD);
}
while (x_arg--) {
x_goto(xcp - 1);
if (xcp == xbuf)
break;
}
return (KSTD);
}
static int
x_mv_forw(int c MKSH_A_UNUSED)
{
char *cp = xcp, *cp2;
if (xcp == xep) {
x_e_putc2(7);
return (KSTD);
}
while (x_arg--) {
utf_ptradjx(cp, cp2);
if (cp2 > xep)
break;
cp = cp2;
}
x_goto(cp);
return (KSTD);
}
static int
x_search_char_forw(int c MKSH_A_UNUSED)
{
char *cp = xcp;
char tmp[4];
*xep = '\0';
if (x_e_getmbc(tmp) < 0) {
x_e_putc2(7);
return (KSTD);
}
while (x_arg--) {
if ((cp = (cp == xep) ? NULL : strstr(cp + 1, tmp)) == NULL &&
(cp = strstr(xbuf, tmp)) == NULL) {
x_e_putc2(7);
return (KSTD);
}
}
x_goto(cp);
return (KSTD);
}
static int
x_search_char_back(int c MKSH_A_UNUSED)
{
char *cp = xcp, *p, tmp[4];
bool b;
if (x_e_getmbc(tmp) < 0) {
x_e_putc2(7);
return (KSTD);
}
for (; x_arg--; cp = p)
for (p = cp; ; ) {
if (p-- == xbuf)
p = xep;
if (p == cp) {
x_e_putc2(7);
return (KSTD);
}
if ((tmp[1] && ((p+1) > xep)) ||
(tmp[2] && ((p+2) > xep)))
continue;
b = true;
if (*p != tmp[0])
b = false;
if (b && tmp[1] && p[1] != tmp[1])
b = false;
if (b && tmp[2] && p[2] != tmp[2])
b = false;
if (b)
break;
}
x_goto(cp);
return (KSTD);
}
static int
x_newline(int c MKSH_A_UNUSED)
{
x_e_putc2('\r');
x_e_putc2('\n');
x_flush();
*xep++ = '\n';
return (KEOL);
}
static int
x_end_of_text(int c MKSH_A_UNUSED)
{
x_zotc2(edchars.eof);
x_putc('\r');
x_putc('\n');
x_flush();
return (KEOL);
}
static int
x_beg_hist(int c MKSH_A_UNUSED)
{
x_load_hist(history);
return (KSTD);
}
static int
x_end_hist(int c MKSH_A_UNUSED)
{
x_load_hist(histptr);
return (KSTD);
}
static int
x_prev_com(int c MKSH_A_UNUSED)
{
x_load_hist(x_histp - x_arg);
return (KSTD);
}
static int
x_next_com(int c MKSH_A_UNUSED)
{
x_load_hist(x_histp + x_arg);
return (KSTD);
}
/*
* Goto a particular history number obtained from argument.
* If no argument is given history 1 is probably not what you
* want so we'll simply go to the oldest one.
*/
static int
x_goto_hist(int c MKSH_A_UNUSED)
{
if (x_arg_defaulted)
x_load_hist(history);
else
x_load_hist(histptr + x_arg - source->line);
return (KSTD);
}
static void
x_load_hist(char **hp)
{
int oldsize;
char *sp = NULL;
if (hp == histptr + 1) {
sp = holdbuf;
modified = 0;
} else if (hp < history || hp > histptr) {
x_e_putc2(7);
return;
}
if (sp == NULL)
sp = *hp;
x_histp = hp;
oldsize = x_size_str(xbuf);
if (modified)
strlcpy(holdbuf, xbuf, sizeof(holdbuf));
strlcpy(xbuf, sp, xend - xbuf);
xbp = xbuf;
xep = xcp = xbuf + strlen(xbuf);
xlp_valid = false;
if (xep <= x_lastcp()) {
x_redraw(oldsize);
}
x_goto(xep);
modified = 0;
}
static int
x_nl_next_com(int c MKSH_A_UNUSED)
{
x_nextcmd = source->line - (histptr - x_histp) + 1;
return (x_newline('\n'));
}
static int
x_eot_del(int c)
{
if (xep == xbuf && x_arg_defaulted)
return (x_end_of_text(c));
else
return (x_del_char(c));
}
/* reverse incremental history search */
static int
x_search_hist(int c)
{
int offset = -1; /* offset of match in xbuf, else -1 */
char pat[256 + 1]; /* pattern buffer */
char *p = pat;
unsigned char f;
*p = '\0';
while (/* CONSTCOND */ 1) {
if (offset < 0) {
x_e_puts("\nI-search: ");
x_e_puts(pat);
}
x_flush();
if ((c = x_e_getc()) < 0)
return (KSTD);
f = x_tab[0][c];
if (c == CTRL('[')) {
if ((f & 0x7F) == XFUNC_meta1) {
if ((c = x_e_getc()) < 0)
return (KSTD);
f = x_tab[1][c] & 0x7F;
if (f == XFUNC_meta1 || f == XFUNC_meta2)
x_meta1(CTRL('['));
x_e_ungetc(c);
}
break;
}
#ifndef MKSH_SMALL
if (f & 0x80) {
f &= 0x7F;
if ((c = x_e_getc()) != '~')
x_e_ungetc(c);
}
#endif
if (f == XFUNC_search_hist)
offset = x_search(pat, 0, offset);
else if (f == XFUNC_del_back) {
if (p == pat) {
offset = -1;
break;
}
if (p > pat)
*--p = '\0';
if (p == pat)
offset = -1;
else
offset = x_search(pat, 1, offset);
continue;
} else if (f == XFUNC_insert) {
/* add char to pattern */
/* overflow check... */
if (p >= &pat[sizeof(pat) - 1]) {
x_e_putc2(7);
continue;
}
*p++ = c, *p = '\0';
if (offset >= 0) {
/* already have partial match */
offset = x_match(xbuf, pat);
if (offset >= 0) {
x_goto(xbuf + offset + (p - pat) -
(*pat == '^'));
continue;
}
}
offset = x_search(pat, 0, offset);
} else if (f == XFUNC_abort) {
if (offset >= 0)
x_load_hist(histptr + 1);
break;
} else {
/* other command */
x_e_ungetc(c);
break;
}
}
if (offset < 0)
x_redraw(-1);
return (KSTD);
}
/* search backward from current line */
static int
x_search(char *pat, int sameline, int offset)
{
char **hp;
int i;
for (hp = x_histp - (sameline ? 0 : 1); hp >= history; --hp) {
i = x_match(*hp, pat);
if (i >= 0) {
if (offset < 0)
x_e_putc2('\n');
x_load_hist(hp);
x_goto(xbuf + i + strlen(pat) - (*pat == '^'));
return (i);
}
}
x_e_putc2(7);
x_histp = histptr;
return (-1);
}
#ifndef MKSH_SMALL
/* anchored search up from current line */
static int
x_search_hist_up(int c MKSH_A_UNUSED)
{
return (x_search_dir(-1));
}
/* anchored search down from current line */
static int
x_search_hist_dn(int c MKSH_A_UNUSED)
{
return (x_search_dir(1));
}
/* anchored search in the indicated direction */
static int
x_search_dir(int search_dir /* should've been bool */)
{
char **hp = x_histp + search_dir;
size_t curs = xcp - xbuf;
while (histptr >= hp && hp >= history) {
if (strncmp(xbuf, *hp, curs) == 0) {
x_load_hist(hp);
x_goto(xbuf + curs);
break;
}
hp += search_dir;
}
return (KSTD);
}
#endif
/* return position of first match of pattern in string, else -1 */
static int
x_match(char *str, char *pat)
{
if (*pat == '^') {
return ((strncmp(str, pat + 1, strlen(pat + 1)) == 0) ? 0 : -1);
} else {
char *q = strstr(str, pat);
return ((q == NULL) ? -1 : q - str);
}
}
static int
x_del_line(int c MKSH_A_UNUSED)
{
int i, j;
*xep = 0;
i = xep - xbuf;
j = x_size_str(xbuf);
xcp = xbuf;
x_push(i);
xlp = xbp = xep = xbuf;
xlp_valid = true;
*xcp = 0;
xmp = NULL;
x_redraw(j);
x_modified();
return (KSTD);
}
static int
x_mv_end(int c MKSH_A_UNUSED)
{
x_goto(xep);
return (KSTD);
}
static int
x_mv_begin(int c MKSH_A_UNUSED)
{
x_goto(xbuf);
return (KSTD);
}
static int
x_draw_line(int c MKSH_A_UNUSED)
{
x_redraw(-1);
return (KSTD);
}
static int
x_e_rebuildline(const char *clrstr)
{
shf_puts(clrstr, shl_out);
x_adjust();
return (KSTD);
}
static int
x_cls(int c MKSH_A_UNUSED)
{
return (x_e_rebuildline(MKSH_CLS_STRING));
}
/*
* Redraw (part of) the line. If limit is < 0, the everything is redrawn
* on a NEW line, otherwise limit is the screen column up to which needs
* redrawing.
*/
static void
x_redraw(int limit)
{
int i, j, x_trunc = 0;
char *cp;
x_adj_ok = 0;
if (limit == -1)
x_e_putc2('\n');
else
x_e_putc2('\r');
x_flush();
if (xbp == xbuf) {
x_col = promptlen(prompt);
if (x_col >= xx_cols)
x_trunc = (x_col / xx_cols) * xx_cols;
if (prompt_redraw)
pprompt(prompt, x_trunc);
}
if (x_col >= xx_cols)
x_col %= xx_cols;
x_displen = xx_cols - 2 - x_col;
if (x_displen < 1) {
x_col = 0;
x_displen = xx_cols - 2;
}
xlp_valid = false;
x_lastcp();
x_zots(xbp);
if (xbp != xbuf || xep > xlp)
limit = xx_cols;
if (limit >= 0) {
if (xep > xlp)
/* we fill the line */
i = 0;
else {
char *cpl = xbp;
i = limit;
while (cpl < xlp)
i -= x_size2(cpl, &cpl);
}
j = 0;
while ((j < i) || (x_col < (xx_cols - 2))) {
if (!(x_col < (xx_cols - 2)))
break;
x_e_putc2(' ');
j++;
}
i = ' ';
if (xep > xlp) {
/* more off screen */
if (xbp > xbuf)
i = '*';
else
i = '>';
} else if (xbp > xbuf)
i = '<';
x_e_putc2(i);
j++;
while (j--)
x_e_putc2('\b');
}
cp = xlp;
while (cp > xcp)
x_bs3(&cp);
x_adj_ok = 1;
return;
}
static int
x_transpose(int c MKSH_A_UNUSED)
{
unsigned int tmpa, tmpb;
/*-
* What transpose is meant to do seems to be up for debate. This
* is a general summary of the options; the text is abcd with the
* upper case character or underscore indicating the cursor position:
* Who Before After Before After
* AT&T ksh in emacs mode: abCd abdC abcd_ (bell)
* AT&T ksh in gmacs mode: abCd baCd abcd_ abdc_
* gnu emacs: abCd acbD abcd_ abdc_
* Pdksh currently goes with GNU behavior since I believe this is the
* most common version of emacs, unless in gmacs mode, in which case
* it does the AT&T ksh gmacs mode.
* This should really be broken up into 3 functions so users can bind
* to the one they want.
*/
if (xcp == xbuf) {
x_e_putc2(7);
return (KSTD);
} else if (xcp == xep || Flag(FGMACS)) {
if (xcp - xbuf == 1) {
x_e_putc2(7);
return (KSTD);
}
/*
* Gosling/Unipress emacs style: Swap two characters before
* the cursor, do not change cursor position
*/
x_bs3(&xcp);
if (utf_mbtowc(&tmpa, xcp) == (size_t)-1) {
x_e_putc2(7);
return (KSTD);
}
x_bs3(&xcp);
if (utf_mbtowc(&tmpb, xcp) == (size_t)-1) {
x_e_putc2(7);
return (KSTD);
}
utf_wctomb(xcp, tmpa);
x_zotc3(&xcp);
utf_wctomb(xcp, tmpb);
x_zotc3(&xcp);
} else {
/*
* GNU emacs style: Swap the characters before and under the
* cursor, move cursor position along one.
*/
if (utf_mbtowc(&tmpa, xcp) == (size_t)-1) {
x_e_putc2(7);
return (KSTD);
}
x_bs3(&xcp);
if (utf_mbtowc(&tmpb, xcp) == (size_t)-1) {
x_e_putc2(7);
return (KSTD);
}
utf_wctomb(xcp, tmpa);
x_zotc3(&xcp);
utf_wctomb(xcp, tmpb);
x_zotc3(&xcp);
}
x_modified();
return (KSTD);
}
static int
x_literal(int c MKSH_A_UNUSED)
{
x_curprefix = -1;
return (KSTD);
}
static int
x_meta1(int c MKSH_A_UNUSED)
{
x_curprefix = 1;
return (KSTD);
}
static int
x_meta2(int c MKSH_A_UNUSED)
{
x_curprefix = 2;
return (KSTD);
}
static int
x_kill(int c MKSH_A_UNUSED)
{
int col = xcp - xbuf;
int lastcol = xep - xbuf;
int ndel;
if (x_arg_defaulted)
x_arg = lastcol;
else if (x_arg > lastcol)
x_arg = lastcol;
ndel = x_arg - col;
if (ndel < 0) {
x_goto(xbuf + x_arg);
ndel = -ndel;
}
x_delete(ndel, true);
return (KSTD);
}
static void
x_push(int nchars)
{
char *cp;
strndupx(cp, xcp, nchars, AEDIT);
if (killstack[killsp])
afree(killstack[killsp], AEDIT);
killstack[killsp] = cp;
killsp = (killsp + 1) % KILLSIZE;
}
static int
x_yank(int c MKSH_A_UNUSED)
{
if (killsp == 0)
killtp = KILLSIZE;
else
killtp = killsp;
killtp--;
if (killstack[killtp] == 0) {
x_e_puts("\nnothing to yank");
x_redraw(-1);
return (KSTD);
}
xmp = xcp;
x_ins(killstack[killtp]);
return (KSTD);
}
static int
x_meta_yank(int c MKSH_A_UNUSED)
{
size_t len;
if ((x_last_command != XFUNC_yank && x_last_command != XFUNC_meta_yank) ||
killstack[killtp] == 0) {
killtp = killsp;
x_e_puts("\nyank something first");
x_redraw(-1);
return (KSTD);
}
len = strlen(killstack[killtp]);
x_goto(xcp - len);
x_delete(len, false);
do {
if (killtp == 0)
killtp = KILLSIZE - 1;
else
killtp--;
} while (killstack[killtp] == 0);
x_ins(killstack[killtp]);
return (KSTD);
}
static int
x_abort(int c MKSH_A_UNUSED)
{
/* x_zotc(c); */
xlp = xep = xcp = xbp = xbuf;
xlp_valid = true;
*xcp = 0;
x_modified();
return (KINTR);
}
static int
x_error(int c MKSH_A_UNUSED)
{
x_e_putc2(7);
return (KSTD);
}
#ifndef MKSH_SMALL
/* special VT100 style key sequence hack */
static int
x_vt_hack(int c)
{
/* we only support PF2-'1' for now */
if (c != (2 << 8 | '1'))
return (x_error(c));
/* what's the next character? */
switch ((c = x_e_getc())) {
case '~':
x_arg = 1;
x_arg_defaulted = true;
return (x_mv_begin(0));
case ';':
/* "interesting" sequence detected */
break;
default:
goto unwind_err;
}
/* XXX x_e_ungetc is one-octet only */
if ((c = x_e_getc()) != '5' && c != '3')
goto unwind_err;
/*-
* At this point, we have read the following octets so far:
* - ESC+[ or ESC+O or Ctrl-X (Prefix 2)
* - 1 (vt_hack)
* - ;
* - 5 (Ctrl key combiner) or 3 (Alt key combiner)
* We can now accept one more octet designating the key.
*/
switch ((c = x_e_getc())) {
case 'C':
return (x_mv_fword(c));
case 'D':
return (x_mv_bword(c));
}
unwind_err:
x_e_ungetc(c);
return (x_error(c));
}
#endif
static char *
x_mapin(const char *cp, Area *ap)
{
char *news, *op;
/* for clang's static analyser, the nonnull attribute isn't enough */
mkssert(cp != NULL);
strdupx(news, cp, ap);
op = news;
while (*cp) {
/* XXX -- should handle \^ escape? */
if (*cp == '^') {
cp++;
if (*cp >= '?')
/* includes '?'; ASCII */
*op++ = CTRL(*cp);
else {
*op++ = '^';
cp--;
}
} else
*op++ = *cp;
cp++;
}
*op = '\0';
return (news);
}
static void
x_mapout2(int c, char **buf)
{
char *p = *buf;
if (c < ' ' || c == 0x7f) {
*p++ = '^';
*p++ = UNCTRL(c);
} else
*p++ = c;
*p = 0;
*buf = p;
}
static char *
x_mapout(int c)
{
static char buf[8];
char *bp = buf;
x_mapout2(c, &bp);
return (buf);
}
static void
x_print(int prefix, int key)
{
int f = x_tab[prefix][key];
if (prefix)
/* prefix == 1 || prefix == 2 */
shf_puts(x_mapout(prefix == 1 ?
CTRL('[') : CTRL('X')), shl_stdout);
#ifdef MKSH_SMALL
shprintf("%s = ", x_mapout(key));
#else
shprintf("%s%s = ", x_mapout(key), (f & 0x80) ? "~" : "");
if (XFUNC_VALUE(f) != XFUNC_ins_string)
#endif
shprintf("%s\n", x_ftab[XFUNC_VALUE(f)].xf_name);
#ifndef MKSH_SMALL
else
shprintf("'%s'\n", x_atab[prefix][key]);
#endif
}
int
x_bind(const char *a1, const char *a2,
#ifndef MKSH_SMALL
/* bind -m */
bool macro,
#endif
/* bind -l */
bool list)
{
unsigned char f;
int prefix, key;
char *m1, *m2;
#ifndef MKSH_SMALL
char *sp = NULL;
bool hastilde;
#endif
if (x_tab == NULL) {
bi_errorf("can't bind, not a tty");
return (1);
}
/* List function names */
if (list) {
for (f = 0; f < NELEM(x_ftab); f++)
if (x_ftab[f].xf_name &&
!(x_ftab[f].xf_flags & XF_NOBIND))
shprintf("%s\n", x_ftab[f].xf_name);
return (0);
}
if (a1 == NULL) {
for (prefix = 0; prefix < X_NTABS; prefix++)
for (key = 0; key < X_TABSZ; key++) {
f = XFUNC_VALUE(x_tab[prefix][key]);
if (f == XFUNC_insert || f == XFUNC_error
#ifndef MKSH_SMALL
|| (macro && f != XFUNC_ins_string)
#endif
)
continue;
x_print(prefix, key);
}
return (0);
}
m2 = m1 = x_mapin(a1, ATEMP);
prefix = 0;
for (;; m1++) {
key = (unsigned char)*m1;
f = XFUNC_VALUE(x_tab[prefix][key]);
if (f == XFUNC_meta1)
prefix = 1;
else if (f == XFUNC_meta2)
prefix = 2;
else
break;
}
if (*++m1
#ifndef MKSH_SMALL
&& ((*m1 != '~') || *(m1 + 1))
#endif
) {
char msg[256];
const char *c = a1;
m1 = msg;
while (*c && m1 < (msg + sizeof(msg) - 3))
x_mapout2(*c++, &m1);
bi_errorf("%s: %s", "too long key sequence", msg);
return (1);
}
#ifndef MKSH_SMALL
hastilde = tobool(*m1);
#endif
afree(m2, ATEMP);
if (a2 == NULL) {
x_print(prefix, key);
return (0);
}
if (*a2 == 0) {
f = XFUNC_insert;
#ifndef MKSH_SMALL
} else if (macro) {
f = XFUNC_ins_string;
sp = x_mapin(a2, AEDIT);
#endif
} else {
for (f = 0; f < NELEM(x_ftab); f++)
if (x_ftab[f].xf_name &&
strcmp(x_ftab[f].xf_name, a2) == 0)
break;
if (f == NELEM(x_ftab) || x_ftab[f].xf_flags & XF_NOBIND) {
bi_errorf("%s: %s %s", a2, "no such", Tfunction);
return (1);
}
}
#ifndef MKSH_SMALL
if (XFUNC_VALUE(x_tab[prefix][key]) == XFUNC_ins_string &&
x_atab[prefix][key])
afree(x_atab[prefix][key], AEDIT);
#endif
x_tab[prefix][key] = f
#ifndef MKSH_SMALL
| (hastilde ? 0x80 : 0)
#endif
;
#ifndef MKSH_SMALL
x_atab[prefix][key] = sp;
#endif
/* Track what the user has bound so x_mode(true) won't toast things */
if (f == XFUNC_insert)
x_bound[(prefix * X_TABSZ + key) / 8] &=
~(1 << ((prefix * X_TABSZ + key) % 8));
else
x_bound[(prefix * X_TABSZ + key) / 8] |=
(1 << ((prefix * X_TABSZ + key) % 8));
return (0);
}
static void
x_init_emacs(void)
{
int i, j;
ainit(AEDIT);
x_nextcmd = -1;
x_tab = alloc2(X_NTABS, sizeof(*x_tab), AEDIT);
for (j = 0; j < X_TABSZ; j++)
x_tab[0][j] = XFUNC_insert;
for (i = 1; i < X_NTABS; i++)
for (j = 0; j < X_TABSZ; j++)
x_tab[i][j] = XFUNC_error;
for (i = 0; i < (int)NELEM(x_defbindings); i++)
x_tab[x_defbindings[i].xdb_tab][x_defbindings[i].xdb_char]
= x_defbindings[i].xdb_func;
#ifndef MKSH_SMALL
x_atab = alloc2(X_NTABS, sizeof(*x_atab), AEDIT);
for (i = 1; i < X_NTABS; i++)
for (j = 0; j < X_TABSZ; j++)
x_atab[i][j] = NULL;
#endif
}
static void
bind_if_not_bound(int p, int k, int func)
{
/* Has user already bound this key? If so, don't override it */
if (x_bound[((p) * X_TABSZ + (k)) / 8] &
(1 << (((p) * X_TABSZ + (k)) % 8)))
return;
x_tab[p][k] = func;
}
static int
x_set_mark(int c MKSH_A_UNUSED)
{
xmp = xcp;
return (KSTD);
}
static int
x_kill_region(int c MKSH_A_UNUSED)
{
int rsize;
char *xr;
if (xmp == NULL) {
x_e_putc2(7);
return (KSTD);
}
if (xmp > xcp) {
rsize = xmp - xcp;
xr = xcp;
} else {
rsize = xcp - xmp;
xr = xmp;
}
x_goto(xr);
x_delete(rsize, true);
xmp = xr;
return (KSTD);
}
static int
x_xchg_point_mark(int c MKSH_A_UNUSED)
{
char *tmp;
if (xmp == NULL) {
x_e_putc2(7);
return (KSTD);
}
tmp = xmp;
xmp = xcp;
x_goto(tmp);
return (KSTD);
}
static int
x_noop(int c MKSH_A_UNUSED)
{
return (KSTD);
}
/*
* File/command name completion routines
*/
static int
x_comp_comm(int c MKSH_A_UNUSED)
{
do_complete(XCF_COMMAND, CT_COMPLETE);
return (KSTD);
}
static int
x_list_comm(int c MKSH_A_UNUSED)
{
do_complete(XCF_COMMAND, CT_LIST);
return (KSTD);
}
static int
x_complete(int c MKSH_A_UNUSED)
{
do_complete(XCF_COMMAND_FILE, CT_COMPLETE);
return (KSTD);
}
static int
x_enumerate(int c MKSH_A_UNUSED)
{
do_complete(XCF_COMMAND_FILE, CT_LIST);
return (KSTD);
}
static int
x_comp_file(int c MKSH_A_UNUSED)
{
do_complete(XCF_FILE, CT_COMPLETE);
return (KSTD);
}
static int
x_list_file(int c MKSH_A_UNUSED)
{
do_complete(XCF_FILE, CT_LIST);
return (KSTD);
}
static int
x_comp_list(int c MKSH_A_UNUSED)
{
do_complete(XCF_COMMAND_FILE, CT_COMPLIST);
return (KSTD);
}
static int
x_expand(int c MKSH_A_UNUSED)
{
char **words;
int start, end, nwords, i;
i = XCF_FILE;
nwords = x_cf_glob(&i, xbuf, xep - xbuf, xcp - xbuf,
&start, &end, &words);
if (nwords == 0) {
x_e_putc2(7);
return (KSTD);
}
x_goto(xbuf + start);
x_delete(end - start, false);
i = 0;
while (i < nwords) {
if (x_escape(words[i], strlen(words[i]), x_do_ins) < 0 ||
(++i < nwords && x_ins(" ") < 0)) {
x_e_putc2(7);
return (KSTD);
}
}
x_adjust();
return (KSTD);
}
static void
do_complete(
/* XCF_{COMMAND,FILE,COMMAND_FILE} */
int flags,
/* 0 for list, 1 for complete and 2 for complete-list */
Comp_type type)
{
char **words;
int start, end, nlen, olen, nwords;
bool completed = false;
nwords = x_cf_glob(&flags, xbuf, xep - xbuf, xcp - xbuf,
&start, &end, &words);
/* no match */
if (nwords == 0) {
x_e_putc2(7);
return;
}
if (type == CT_LIST) {
x_print_expansions(nwords, words,
tobool(flags & XCF_IS_COMMAND));
x_redraw(0);
x_free_words(nwords, words);
return;
}
olen = end - start;
nlen = x_longest_prefix(nwords, words);
/* complete */
if (nwords == 1 || nlen > olen) {
x_goto(xbuf + start);
x_delete(olen, false);
x_escape(words[0], nlen, x_do_ins);
x_adjust();
completed = true;
}
/*
* append a space if this is a single non-directory match
* and not a parameter or homedir substitution
*/
if (nwords == 1 && words[0][nlen - 1] != '/' &&
!(flags & XCF_IS_SUBGLOB)) {
x_ins(" ");
completed = true;
}
if (type == CT_COMPLIST && !completed) {
x_print_expansions(nwords, words,
tobool(flags & XCF_IS_COMMAND));
completed = true;
}
if (completed)
x_redraw(0);
x_free_words(nwords, words);
}
/*-
* NAME:
* x_adjust - redraw the line adjusting starting point etc.
*
* DESCRIPTION:
* This function is called when we have exceeded the bounds
* of the edit window. It increments x_adj_done so that
* functions like x_ins and x_delete know that we have been
* called and can skip the x_bs() stuff which has already
* been done by x_redraw.
*
* RETURN VALUE:
* None
*/
static void
x_adjust(void)
{
/* flag the fact that we were called. */
x_adj_done++;
/*
* we had a problem if the prompt length > xx_cols / 2
*/
if ((xbp = xcp - (x_displen / 2)) < xbuf)
xbp = xbuf;
if (UTFMODE)
while ((xbp > xbuf) && ((*xbp & 0xC0) == 0x80))
--xbp;
xlp_valid = false;
x_redraw(xx_cols);
x_flush();
}
static void
x_e_ungetc(int c)
{
unget_char = c < 0 ? -1 : (c & 255);
}
static int
x_e_getc(void)
{
int c;
if (unget_char >= 0) {
c = unget_char;
unget_char = -1;
return (c);
}
#ifndef MKSH_SMALL
if (macroptr) {
if ((c = (unsigned char)*macroptr++))
return (c);
macroptr = NULL;
}
#endif
return (x_getc());
}
static void
x_e_putc2(int c)
{
int width = 1;
if (c == '\r' || c == '\n')
x_col = 0;
if (x_col < xx_cols) {
if (UTFMODE && (c > 0x7F)) {
char utf_tmp[3];
size_t x;
if (c < 0xA0)
c = 0xFFFD;
x = utf_wctomb(utf_tmp, c);
x_putc(utf_tmp[0]);
if (x > 1)
x_putc(utf_tmp[1]);
if (x > 2)
x_putc(utf_tmp[2]);
width = utf_wcwidth(c);
} else
x_putc(c);
switch (c) {
case 7:
break;
case '\r':
case '\n':
break;
case '\b':
x_col--;
break;
default:
x_col += width;
break;
}
}
if (x_adj_ok && (x_col < 0 || x_col >= (xx_cols - 2)))
x_adjust();
}
static void
x_e_putc3(const char **cp)
{
int width = 1, c = **(const unsigned char **)cp;
if (c == '\r' || c == '\n')
x_col = 0;
if (x_col < xx_cols) {
if (UTFMODE && (c > 0x7F)) {
char *cp2;
width = utf_widthadj(*cp, (const char **)&cp2);
while (*cp < cp2)
x_putcf(*(*cp)++);
} else {
(*cp)++;
x_putc(c);
}
switch (c) {
case 7:
break;
case '\r':
case '\n':
break;
case '\b':
x_col--;
break;
default:
x_col += width;
break;
}
}
if (x_adj_ok && (x_col < 0 || x_col >= (xx_cols - 2)))
x_adjust();
}
static void
x_e_puts(const char *s)
{
int adj = x_adj_done;
while (*s && adj == x_adj_done)
x_e_putc3(&s);
}
/*-
* NAME:
* x_set_arg - set an arg value for next function
*
* DESCRIPTION:
* This is a simple implementation of M-[0-9].
*
* RETURN VALUE:
* KSTD
*/
static int
x_set_arg(int c)
{
unsigned int n = 0;
bool first = true;
/* strip command prefix */
c &= 255;
while (c >= 0 && ksh_isdigit(c)) {
n = n * 10 + (c - '0');
if (n > LINE)
/* upper bound for repeat */
goto x_set_arg_too_big;
c = x_e_getc();
first = false;
}
if (c < 0 || first) {
x_set_arg_too_big:
x_e_putc2(7);
x_arg = 1;
x_arg_defaulted = true;
} else {
x_e_ungetc(c);
x_arg = n;
x_arg_defaulted = false;
}
return (KSTD);
}
/* Comment or uncomment the current line. */
static int
x_comment(int c MKSH_A_UNUSED)
{
int oldsize = x_size_str(xbuf);
ssize_t len = xep - xbuf;
int ret = x_do_comment(xbuf, xend - xbuf, &len);
if (ret < 0)
x_e_putc2(7);
else {
x_modified();
xep = xbuf + len;
*xep = '\0';
xcp = xbp = xbuf;
x_redraw(oldsize);
if (ret > 0)
return (x_newline('\n'));
}
return (KSTD);
}
static int
x_version(int c MKSH_A_UNUSED)
{
char *o_xbuf = xbuf, *o_xend = xend;
char *o_xbp = xbp, *o_xep = xep, *o_xcp = xcp;
int lim = x_lastcp() - xbp;
size_t vlen;
char *v;
strdupx(v, KSH_VERSION, ATEMP);
xbuf = xbp = xcp = v;
xend = xep = v + (vlen = strlen(v));
x_redraw(lim);
x_flush();
c = x_e_getc();
xbuf = o_xbuf;
xend = o_xend;
xbp = o_xbp;
xep = o_xep;
xcp = o_xcp;
x_redraw((int)vlen);
if (c < 0)
return (KSTD);
/* This is what AT&T ksh seems to do... Very bizarre */
if (c != ' ')
x_e_ungetc(c);
afree(v, ATEMP);
return (KSTD);
}
#ifndef MKSH_SMALL
static int
x_edit_line(int c MKSH_A_UNUSED)
{
if (x_arg_defaulted) {
if (xep == xbuf) {
x_e_putc2(7);
return (KSTD);
}
if (modified) {
*xep = '\0';
histsave(&source->line, xbuf, true, true);
x_arg = 0;
} else
x_arg = source->line - (histptr - x_histp);
}
if (x_arg)
shf_snprintf(xbuf, xend - xbuf, "%s %d",
"fc -e ${VISUAL:-${EDITOR:-vi}} --", x_arg);
else
strlcpy(xbuf, "fc -e ${VISUAL:-${EDITOR:-vi}} --", xend - xbuf);
xep = xbuf + strlen(xbuf);
return (x_newline('\n'));
}
#endif
/*-
* NAME:
* x_prev_histword - recover word from prev command
*
* DESCRIPTION:
* This function recovers the last word from the previous
* command and inserts it into the current edit line. If a
* numeric arg is supplied then the n'th word from the
* start of the previous command is used.
* As a side effect, trashes the mark in order to achieve
* being called in a repeatable fashion.
*
* Bound to M-.
*
* RETURN VALUE:
* KSTD
*/
static int
x_prev_histword(int c MKSH_A_UNUSED)
{
char *rcp, *cp;
char **xhp;
int m = 1;
/* -1 = defaulted; 0+ = argument */
static int last_arg = -1;
if (x_last_command == XFUNC_prev_histword) {
if (xmp && modified > 1)
x_kill_region(0);
if (modified)
m = modified;
} else
last_arg = x_arg_defaulted ? -1 : x_arg;
xhp = histptr - (m - 1);
if ((xhp < history) || !(cp = *xhp)) {
x_e_putc2(7);
x_modified();
return (KSTD);
}
x_set_mark(0);
if ((x_arg = last_arg) == -1) {
/* x_arg_defaulted */
rcp = &cp[strlen(cp) - 1];
/*
* ignore white-space after the last word
*/
while (rcp > cp && is_cfs(*rcp))
rcp--;
while (rcp > cp && !is_cfs(*rcp))
rcp--;
if (is_cfs(*rcp))
rcp++;
x_ins(rcp);
} else {
/* not x_arg_defaulted */
char ch;
rcp = cp;
/*
* ignore white-space at start of line
*/
while (*rcp && is_cfs(*rcp))
rcp++;
while (x_arg-- > 0) {
while (*rcp && !is_cfs(*rcp))
rcp++;
while (*rcp && is_cfs(*rcp))
rcp++;
}
cp = rcp;
while (*rcp && !is_cfs(*rcp))
rcp++;
ch = *rcp;
*rcp = '\0';
x_ins(cp);
*rcp = ch;
}
modified = m + 1;
return (KSTD);
}
#ifndef MKSH_SMALL
/* Uppercase N(1) words */
static int
x_fold_upper(int c MKSH_A_UNUSED)
{
return (x_fold_case('U'));
}
/* Lowercase N(1) words */
static int
x_fold_lower(int c MKSH_A_UNUSED)
{
return (x_fold_case('L'));
}
/* Lowercase N(1) words */
static int
x_fold_capitalise(int c MKSH_A_UNUSED)
{
return (x_fold_case('C'));
}
/*-
* NAME:
* x_fold_case - convert word to UPPER/lower/Capital case
*
* DESCRIPTION:
* This function is used to implement M-U,M-u,M-L,M-l,M-C and M-c
* to UPPER case, lower case or Capitalise words.
*
* RETURN VALUE:
* None
*/
static int
x_fold_case(int c)
{
char *cp = xcp;
if (cp == xep) {
x_e_putc2(7);
return (KSTD);
}
while (x_arg--) {
/*
* first skip over any white-space
*/
while (cp != xep && is_mfs(*cp))
cp++;
/*
* do the first char on its own since it may be
* a different action than for the rest.
*/
if (cp != xep) {
if (c == 'L')
/* lowercase */
*cp = ksh_tolower(*cp);
else
/* uppercase, capitalise */
*cp = ksh_toupper(*cp);
cp++;
}
/*
* now for the rest of the word
*/
while (cp != xep && !is_mfs(*cp)) {
if (c == 'U')
/* uppercase */
*cp = ksh_toupper(*cp);
else
/* lowercase, capitalise */
*cp = ksh_tolower(*cp);
cp++;
}
}
x_goto(cp);
x_modified();
return (KSTD);
}
#endif
/*-
* NAME:
* x_lastcp - last visible char
*
* SYNOPSIS:
* x_lastcp()
*
* DESCRIPTION:
* This function returns a pointer to that char in the
* edit buffer that will be the last displayed on the
* screen. The sequence:
*
* cp = x_lastcp();
* while (cp > xcp)
* x_bs3(&cp);
*
* Will position the cursor correctly on the screen.
*
* RETURN VALUE:
* cp or NULL
*/
static char *
x_lastcp(void)
{
if (!xlp_valid) {
int i = 0, j;
char *xlp2;
xlp = xbp;
while (xlp < xep) {
j = x_size2(xlp, &xlp2);
if ((i + j) > x_displen)
break;
i += j;
xlp = xlp2;
}
}
xlp_valid = true;
return (xlp);
}
static void
x_mode(bool onoff)
{
static bool x_cur_mode;
if (x_cur_mode == onoff)
return;
x_cur_mode = onoff;
if (onoff) {
x_mkraw(tty_fd, NULL, false);
edchars.erase = tty_state.c_cc[VERASE];
edchars.kill = tty_state.c_cc[VKILL];
edchars.intr = tty_state.c_cc[VINTR];
edchars.quit = tty_state.c_cc[VQUIT];
edchars.eof = tty_state.c_cc[VEOF];
#ifdef VWERASE
edchars.werase = tty_state.c_cc[VWERASE];
#endif
#ifdef _POSIX_VDISABLE
/* Convert unset values to internal 'unset' value */
if (edchars.erase == _POSIX_VDISABLE)
edchars.erase = -1;
if (edchars.kill == _POSIX_VDISABLE)
edchars.kill = -1;
if (edchars.intr == _POSIX_VDISABLE)
edchars.intr = -1;
if (edchars.quit == _POSIX_VDISABLE)
edchars.quit = -1;
if (edchars.eof == _POSIX_VDISABLE)
edchars.eof = -1;
if (edchars.werase == _POSIX_VDISABLE)
edchars.werase = -1;
#endif
if (edchars.erase >= 0) {
bind_if_not_bound(0, edchars.erase, XFUNC_del_back);
bind_if_not_bound(1, edchars.erase, XFUNC_del_bword);
}
if (edchars.kill >= 0)
bind_if_not_bound(0, edchars.kill, XFUNC_del_line);
if (edchars.werase >= 0)
bind_if_not_bound(0, edchars.werase, XFUNC_del_bword);
if (edchars.intr >= 0)
bind_if_not_bound(0, edchars.intr, XFUNC_abort);
if (edchars.quit >= 0)
bind_if_not_bound(0, edchars.quit, XFUNC_noop);
} else
tcsetattr(tty_fd, TCSADRAIN, &tty_state);
}
#if !MKSH_S_NOVI
/* +++ vi editing mode +++ */
#define Ctrl(c) (c&0x1f)
struct edstate {
char *cbuf;
ssize_t winleft;
ssize_t cbufsize;
ssize_t linelen;
ssize_t cursor;
};
static int vi_hook(int);
static int nextstate(int);
static int vi_insert(int);
static int vi_cmd(int, const char *);
static int domove(int, const char *, int);
static int redo_insert(int);
static void yank_range(int, int);
static int bracktype(int);
static void save_cbuf(void);
static void restore_cbuf(void);
static int putbuf(const char *, ssize_t, int);
static void del_range(int, int);
static int findch(int, int, int, int);
static int forwword(int);
static int backword(int);
static int endword(int);
static int Forwword(int);
static int Backword(int);
static int Endword(int);
static int grabhist(int, int);
static int grabsearch(int, int, int, char *);
static void redraw_line(bool);
static void refresh(int);
static int outofwin(void);
static void rewindow(void);
static int newcol(int, int);
static void display(char *, char *, int);
static void ed_mov_opt(int, char *);
static int expand_word(int);
static int complete_word(int, int);
static int print_expansions(struct edstate *, int);
#define char_len(c) ((c) < ' ' || (c) == 0x7F ? 2 : 1)
static void x_vi_zotc(int);
static void vi_error(void);
static void vi_macro_reset(void);
static int x_vi_putbuf(const char *, size_t);
#define vC 0x01 /* a valid command that isn't a vM, vE, vU */
#define vM 0x02 /* movement command (h, l, etc.) */
#define vE 0x04 /* extended command (c, d, y) */
#define vX 0x08 /* long command (@, f, F, t, T, etc.) */
#define vU 0x10 /* an UN-undoable command (that isn't a vM) */
#define vB 0x20 /* bad command (^@) */
#define vZ 0x40 /* repeat count defaults to 0 (not 1) */
#define vS 0x80 /* search (/, ?) */
#define is_bad(c) (classify[(c)&0x7f]&vB)
#define is_cmd(c) (classify[(c)&0x7f]&(vM|vE|vC|vU))
#define is_move(c) (classify[(c)&0x7f]&vM)
#define is_extend(c) (classify[(c)&0x7f]&vE)
#define is_long(c) (classify[(c)&0x7f]&vX)
#define is_undoable(c) (!(classify[(c)&0x7f]&vU))
#define is_srch(c) (classify[(c)&0x7f]&vS)
#define is_zerocount(c) (classify[(c)&0x7f]&vZ)
static const unsigned char classify[128] = {
/* 0 1 2 3 4 5 6 7 */
/* 0 ^@ ^A ^B ^C ^D ^E ^F ^G */
vB, 0, 0, 0, 0, vC|vU, vC|vZ, 0,
/* 1 ^H ^I ^J ^K ^L ^M ^N ^O */
vM, vC|vZ, 0, 0, vC|vU, 0, vC, 0,
/* 2 ^P ^Q ^R ^S ^T ^U ^V ^W */
vC, 0, vC|vU, 0, 0, 0, vC, 0,
/* 3 ^X ^Y ^Z ^[ ^\ ^] ^^ ^_ */
vC, 0, 0, vC|vZ, 0, 0, 0, 0,
/* 4 <space> ! " # $ % & ' */
vM, 0, 0, vC, vM, vM, 0, 0,
/* 5 ( ) * + , - . / */
0, 0, vC, vC, vM, vC, 0, vC|vS,
/* 6 0 1 2 3 4 5 6 7 */
vM, 0, 0, 0, 0, 0, 0, 0,
/* 7 8 9 : ; < = > ? */
0, 0, 0, vM, 0, vC, 0, vC|vS,
/* 8 @ A B C D E F G */
vC|vX, vC, vM, vC, vC, vM, vM|vX, vC|vU|vZ,
/* 9 H I J K L M N O */
0, vC, 0, 0, 0, 0, vC|vU, 0,
/* A P Q R S T U V W */
vC, 0, vC, vC, vM|vX, vC, 0, vM,
/* B X Y Z [ \ ] ^ _ */
vC, vC|vU, 0, 0, vC|vZ, 0, vM, vC|vZ,
/* C ` a b c d e f g */
0, vC, vM, vE, vE, vM, vM|vX, vC|vZ,
/* D h i j k l m n o */
vM, vC, vC|vU, vC|vU, vM, 0, vC|vU, 0,
/* E p q r s t u v w */
vC, 0, vX, vC, vM|vX, vC|vU, vC|vU|vZ, vM,
/* F x y z { | } ~ ^? */
vC, vE|vU, 0, 0, vM|vZ, 0, vC, 0
};
#define MAXVICMD 3
#define SRCHLEN 40
#define INSERT 1
#define REPLACE 2
#define VNORMAL 0 /* command, insert or replace mode */
#define VARG1 1 /* digit prefix (first, eg, 5l) */
#define VEXTCMD 2 /* cmd + movement (eg, cl) */
#define VARG2 3 /* digit prefix (second, eg, 2c3l) */
#define VXCH 4 /* f, F, t, T, @ */
#define VFAIL 5 /* bad command */
#define VCMD 6 /* single char command (eg, X) */
#define VREDO 7 /* . */
#define VLIT 8 /* ^V */
#define VSEARCH 9 /* /, ? */
#define VVERSION 10 /* <ESC> ^V */
static char undocbuf[LINE];
static struct edstate *save_edstate(struct edstate *old);
static void restore_edstate(struct edstate *old, struct edstate *news);
static void free_edstate(struct edstate *old);
static struct edstate ebuf;
static struct edstate undobuf = { undocbuf, 0, LINE, 0, 0 };
static struct edstate *es; /* current editor state */
static struct edstate *undo;
static char ibuf[LINE]; /* input buffer */
static int first_insert; /* set when starting in insert mode */
static int saved_inslen; /* saved inslen for first insert */
static int inslen; /* length of input buffer */
static int srchlen; /* length of current search pattern */
static char ybuf[LINE]; /* yank buffer */
static int yanklen; /* length of yank buffer */
static int fsavecmd = ' '; /* last find command */
static int fsavech; /* character to find */
static char lastcmd[MAXVICMD]; /* last non-move command */
static int lastac; /* argcnt for lastcmd */
static int lastsearch = ' '; /* last search command */
static char srchpat[SRCHLEN]; /* last search pattern */
static int insert; /* non-zero in insert mode */
static int hnum; /* position in history */
static int ohnum; /* history line copied (after mod) */
static int hlast; /* 1 past last position in history */
static int state;
/*
* Information for keeping track of macros that are being expanded.
* The format of buf is the alias contents followed by a NUL byte followed
* by the name (letter) of the alias. The end of the buffer is marked by
* a double NUL. The name of the alias is stored so recursive macros can
* be detected.
*/
struct macro_state {
unsigned char *p; /* current position in buf */
unsigned char *buf; /* pointer to macro(s) being expanded */
size_t len; /* how much data in buffer */
};
static struct macro_state macro;
/* last input was expanded */
static enum expand_mode {
NONE = 0, EXPAND, COMPLETE, PRINT
} expanded;
static int
x_vi(char *buf, size_t len)
{
int c;
state = VNORMAL;
ohnum = hnum = hlast = histnum(-1) + 1;
insert = INSERT;
saved_inslen = inslen;
first_insert = 1;
inslen = 0;
vi_macro_reset();
es = &ebuf;
es->cbuf = buf;
undo = &undobuf;
undo->cbufsize = es->cbufsize = len > LINE ? LINE : len;
es->linelen = undo->linelen = 0;
es->cursor = undo->cursor = 0;
es->winleft = undo->winleft = 0;
cur_col = promptlen(prompt);
prompt_trunc = (cur_col / x_cols) * x_cols;
cur_col -= prompt_trunc;
pprompt(prompt, 0);
if (cur_col > x_cols - 3 - MIN_EDIT_SPACE) {
prompt_redraw = cur_col = 0;
x_putc('\n');
} else
prompt_redraw = 1;
pwidth = cur_col;
if (!wbuf_len || wbuf_len != x_cols - 3) {
wbuf_len = x_cols - 3;
wbuf[0] = aresize(wbuf[0], wbuf_len, APERM);
wbuf[1] = aresize(wbuf[1], wbuf_len, APERM);
}
if (wbuf_len) {
memset(wbuf[0], ' ', wbuf_len);
memset(wbuf[1], ' ', wbuf_len);
}
winwidth = x_cols - pwidth - 3;
win = 0;
morec = ' ';
lastref = 1;
holdlen = 0;
editmode = 2;
x_flush();
while (/* CONSTCOND */ 1) {
if (macro.p) {
c = *macro.p++;
/* end of current macro? */
if (!c) {
/* more macros left to finish? */
if (*macro.p++)
continue;
/* must be the end of all the macros */
vi_macro_reset();
c = x_getc();
}
} else
c = x_getc();
if (c == -1)
break;
if (state != VLIT) {
if (c == edchars.intr || c == edchars.quit) {
/* pretend we got an interrupt */
x_vi_zotc(c);
x_flush();
trapsig(c == edchars.intr ? SIGINT : SIGQUIT);
x_mode(false);
unwind(LSHELL);
} else if (c == edchars.eof && state != VVERSION) {
if (es->linelen == 0) {
x_vi_zotc(edchars.eof);
c = -1;
break;
}
continue;
}
}
if (vi_hook(c))
break;
x_flush();
}
x_putc('\r');
x_putc('\n');
x_flush();
if (c == -1 || (ssize_t)len <= es->linelen)
return (-1);
if (es->cbuf != buf)
memmove(buf, es->cbuf, es->linelen);
buf[es->linelen++] = '\n';
return (es->linelen);
}
static int
vi_hook(int ch)
{
static char curcmd[MAXVICMD], locpat[SRCHLEN];
static int cmdlen, argc1, argc2;
switch (state) {
case VNORMAL:
if (insert != 0) {
if (ch == Ctrl('v')) {
state = VLIT;
ch = '^';
}
switch (vi_insert(ch)) {
case -1:
vi_error();
state = VNORMAL;
break;
case 0:
if (state == VLIT) {
es->cursor--;
refresh(0);
} else
refresh(insert != 0);
break;
case 1:
return (1);
}
} else {
if (ch == '\r' || ch == '\n')
return (1);
cmdlen = 0;
argc1 = 0;
if (ch >= '1' && ch <= '9') {
argc1 = ch - '0';
state = VARG1;
} else {
curcmd[cmdlen++] = ch;
state = nextstate(ch);
if (state == VSEARCH) {
save_cbuf();
es->cursor = 0;
es->linelen = 0;
if (ch == '/') {
if (putbuf("/", 1, 0) != 0)
return (-1);
} else if (putbuf("?", 1, 0) != 0)
return (-1);
refresh(0);
}
if (state == VVERSION) {
save_cbuf();
es->cursor = 0;
es->linelen = 0;
putbuf(KSH_VERSION,
strlen(KSH_VERSION), 0);
refresh(0);
}
}
}
break;
case VLIT:
if (is_bad(ch)) {
del_range(es->cursor, es->cursor + 1);
vi_error();
} else
es->cbuf[es->cursor++] = ch;
refresh(1);
state = VNORMAL;
break;
case VVERSION:
restore_cbuf();
state = VNORMAL;
refresh(0);
break;
case VARG1:
if (ksh_isdigit(ch))
argc1 = argc1 * 10 + ch - '0';
else {
curcmd[cmdlen++] = ch;
state = nextstate(ch);
}
break;
case VEXTCMD:
argc2 = 0;
if (ch >= '1' && ch <= '9') {
argc2 = ch - '0';
state = VARG2;
return (0);
} else {
curcmd[cmdlen++] = ch;
if (ch == curcmd[0])
state = VCMD;
else if (is_move(ch))
state = nextstate(ch);
else
state = VFAIL;
}
break;
case VARG2:
if (ksh_isdigit(ch))
argc2 = argc2 * 10 + ch - '0';
else {
if (argc1 == 0)
argc1 = argc2;
else
argc1 *= argc2;
curcmd[cmdlen++] = ch;
if (ch == curcmd[0])
state = VCMD;
else if (is_move(ch))
state = nextstate(ch);
else
state = VFAIL;
}
break;
case VXCH:
if (ch == Ctrl('['))
state = VNORMAL;
else {
curcmd[cmdlen++] = ch;
state = VCMD;
}
break;
case VSEARCH:
if (ch == '\r' || ch == '\n' /*|| ch == Ctrl('[')*/ ) {
restore_cbuf();
/* Repeat last search? */
if (srchlen == 0) {
if (!srchpat[0]) {
vi_error();
state = VNORMAL;
refresh(0);
return (0);
}
} else {
locpat[srchlen] = '\0';
memcpy(srchpat, locpat, srchlen + 1);
}
state = VCMD;
} else if (ch == edchars.erase || ch == Ctrl('h')) {
if (srchlen != 0) {
srchlen--;
es->linelen -= char_len((unsigned char)locpat[srchlen]);
es->cursor = es->linelen;
refresh(0);
return (0);
}
restore_cbuf();
state = VNORMAL;
refresh(0);
} else if (ch == edchars.kill) {
srchlen = 0;
es->linelen = 1;
es->cursor = 1;
refresh(0);
return (0);
} else if (ch == edchars.werase) {
int i, n = srchlen;
struct edstate new_es, *save_es;
new_es.cursor = n;
new_es.cbuf = locpat;
save_es = es;
es = &new_es;
n = backword(1);
es = save_es;
for (i = srchlen; --i >= n; )
es->linelen -= char_len((unsigned char)locpat[i]);
srchlen = n;
es->cursor = es->linelen;
refresh(0);
return (0);
} else {
if (srchlen == SRCHLEN - 1)
vi_error();
else {
locpat[srchlen++] = ch;
if (ch < ' ' || ch == 0x7f) {
if (es->linelen + 2 > es->cbufsize)
vi_error();
es->cbuf[es->linelen++] = '^';
es->cbuf[es->linelen++] = ch ^ '@';
} else {
if (es->linelen >= es->cbufsize)
vi_error();
es->cbuf[es->linelen++] = ch;
}
es->cursor = es->linelen;
refresh(0);
}
return (0);
}
break;
}
switch (state) {
case VCMD:
state = VNORMAL;
switch (vi_cmd(argc1, curcmd)) {
case -1:
vi_error();
refresh(0);
break;
case 0:
if (insert != 0)
inslen = 0;
refresh(insert != 0);
break;
case 1:
refresh(0);
return (1);
case 2:
/* back from a 'v' command - don't redraw the screen */
return (1);
}
break;
case VREDO:
state = VNORMAL;
if (argc1 != 0)
lastac = argc1;
switch (vi_cmd(lastac, lastcmd)) {
case -1:
vi_error();
refresh(0);
break;
case 0:
if (insert != 0) {
if (lastcmd[0] == 's' || lastcmd[0] == 'c' ||
lastcmd[0] == 'C') {
if (redo_insert(1) != 0)
vi_error();
} else {
if (redo_insert(lastac) != 0)
vi_error();
}
}
refresh(0);
break;
case 1:
refresh(0);
return (1);
case 2:
/* back from a 'v' command - can't happen */
break;
}
break;
case VFAIL:
state = VNORMAL;
vi_error();
break;
}
return (0);
}
static int
nextstate(int ch)
{
if (is_extend(ch))
return (VEXTCMD);
else if (is_srch(ch))
return (VSEARCH);
else if (is_long(ch))
return (VXCH);
else if (ch == '.')
return (VREDO);
else if (ch == Ctrl('v'))
return (VVERSION);
else if (is_cmd(ch))
return (VCMD);
else
return (VFAIL);
}
static int
vi_insert(int ch)
{
int tcursor;
if (ch == edchars.erase || ch == Ctrl('h')) {
if (insert == REPLACE) {
if (es->cursor == undo->cursor) {
vi_error();
return (0);
}
if (inslen > 0)
inslen--;
es->cursor--;
if (es->cursor >= undo->linelen)
es->linelen--;
else
es->cbuf[es->cursor] = undo->cbuf[es->cursor];
} else {
if (es->cursor == 0)
return (0);
if (inslen > 0)
inslen--;
es->cursor--;
es->linelen--;
memmove(&es->cbuf[es->cursor], &es->cbuf[es->cursor + 1],
es->linelen - es->cursor + 1);
}
expanded = NONE;
return (0);
}
if (ch == edchars.kill) {
if (es->cursor != 0) {
inslen = 0;
memmove(es->cbuf, &es->cbuf[es->cursor],
es->linelen - es->cursor);
es->linelen -= es->cursor;
es->cursor = 0;
}
expanded = NONE;
return (0);
}
if (ch == edchars.werase) {
if (es->cursor != 0) {
tcursor = backword(1);
memmove(&es->cbuf[tcursor], &es->cbuf[es->cursor],
es->linelen - es->cursor);
es->linelen -= es->cursor - tcursor;
if (inslen < es->cursor - tcursor)
inslen = 0;
else
inslen -= es->cursor - tcursor;
es->cursor = tcursor;
}
expanded = NONE;
return (0);
}
/*
* If any chars are entered before escape, trash the saved insert
* buffer (if user inserts & deletes char, ibuf gets trashed and
* we don't want to use it)
*/
if (first_insert && ch != Ctrl('['))
saved_inslen = 0;
switch (ch) {
case '\0':
return (-1);
case '\r':
case '\n':
return (1);
case Ctrl('['):
expanded = NONE;
if (first_insert) {
first_insert = 0;
if (inslen == 0) {
inslen = saved_inslen;
return (redo_insert(0));
}
lastcmd[0] = 'a';
lastac = 1;
}
if (lastcmd[0] == 's' || lastcmd[0] == 'c' ||
lastcmd[0] == 'C')
return (redo_insert(0));
else
return (redo_insert(lastac - 1));
/* { Begin nonstandard vi commands */
case Ctrl('x'):
expand_word(0);
break;
case Ctrl('f'):
complete_word(0, 0);
break;
case Ctrl('e'):
print_expansions(es, 0);
break;
case Ctrl('i'):
if (Flag(FVITABCOMPLETE)) {
complete_word(0, 0);
break;
}
/* FALLTHROUGH */
/* End nonstandard vi commands } */
default:
if (es->linelen >= es->cbufsize - 1)
return (-1);
ibuf[inslen++] = ch;
if (insert == INSERT) {
memmove(&es->cbuf[es->cursor + 1], &es->cbuf[es->cursor],
es->linelen - es->cursor);
es->linelen++;
}
es->cbuf[es->cursor++] = ch;
if (insert == REPLACE && es->cursor > es->linelen)
es->linelen++;
expanded = NONE;
}
return (0);
}
static int
vi_cmd(int argcnt, const char *cmd)
{
int ncursor;
int cur, c1, c2, c3 = 0;
int any;
struct edstate *t;
if (argcnt == 0 && !is_zerocount(*cmd))
argcnt = 1;
if (is_move(*cmd)) {
if ((cur = domove(argcnt, cmd, 0)) >= 0) {
if (cur == es->linelen && cur != 0)
cur--;
es->cursor = cur;
} else
return (-1);
} else {
/* Don't save state in middle of macro.. */
if (is_undoable(*cmd) && !macro.p) {
undo->winleft = es->winleft;
memmove(undo->cbuf, es->cbuf, es->linelen);
undo->linelen = es->linelen;
undo->cursor = es->cursor;
lastac = argcnt;
memmove(lastcmd, cmd, MAXVICMD);
}
switch (*cmd) {
case Ctrl('l'):
case Ctrl('r'):
redraw_line(true);
break;
case '@':
{
static char alias[] = "_\0";
struct tbl *ap;
size_t olen, nlen;
char *p, *nbuf;
/* lookup letter in alias list... */
alias[1] = cmd[1];
ap = ktsearch(&aliases, alias, hash(alias));
if (!cmd[1] || !ap || !(ap->flag & ISSET))
return (-1);
/* check if this is a recursive call... */
if ((p = (char *)macro.p))
while ((p = strnul(p)) && p[1])
if (*++p == cmd[1])
return (-1);
/* insert alias into macro buffer */
nlen = strlen(ap->val.s) + 1;
olen = !macro.p ? 2 :
macro.len - (macro.p - macro.buf);
/*
* at this point, it's fairly reasonable that
* nlen + olen + 2 doesn't overflow
*/
nbuf = alloc(nlen + 1 + olen, APERM);
memcpy(nbuf, ap->val.s, nlen);
nbuf[nlen++] = cmd[1];
if (macro.p) {
memcpy(nbuf + nlen, macro.p, olen);
afree(macro.buf, APERM);
nlen += olen;
} else {
nbuf[nlen++] = '\0';
nbuf[nlen++] = '\0';
}
macro.p = macro.buf = (unsigned char *)nbuf;
macro.len = nlen;
}
break;
case 'a':
modified = 1;
hnum = hlast;
if (es->linelen != 0)
es->cursor++;
insert = INSERT;
break;
case 'A':
modified = 1;
hnum = hlast;
del_range(0, 0);
es->cursor = es->linelen;
insert = INSERT;
break;
case 'S':
es->cursor = domove(1, "^", 1);
del_range(es->cursor, es->linelen);
modified = 1;
hnum = hlast;
insert = INSERT;
break;
case 'Y':
cmd = "y$";
/* ahhhhhh... */
case 'c':
case 'd':
case 'y':
if (*cmd == cmd[1]) {
c1 = *cmd == 'c' ? domove(1, "^", 1) : 0;
c2 = es->linelen;
} else if (!is_move(cmd[1]))
return (-1);
else {
if ((ncursor = domove(argcnt, &cmd[1], 1)) < 0)
return (-1);
if (*cmd == 'c' &&
(cmd[1] == 'w' || cmd[1] == 'W') &&
!ksh_isspace(es->cbuf[es->cursor])) {
do {
--ncursor;
} while (ksh_isspace(es->cbuf[ncursor]));
ncursor++;
}
if (ncursor > es->cursor) {
c1 = es->cursor;
c2 = ncursor;
} else {
c1 = ncursor;
c2 = es->cursor;
if (cmd[1] == '%')
c2++;
}
}
if (*cmd != 'c' && c1 != c2)
yank_range(c1, c2);
if (*cmd != 'y') {
del_range(c1, c2);
es->cursor = c1;
}
if (*cmd == 'c') {
modified = 1;
hnum = hlast;
insert = INSERT;
}
break;
case 'p':
modified = 1;
hnum = hlast;
if (es->linelen != 0)
es->cursor++;
while (putbuf(ybuf, yanklen, 0) == 0 && --argcnt > 0)
;
if (es->cursor != 0)
es->cursor--;
if (argcnt != 0)
return (-1);
break;
case 'P':
modified = 1;
hnum = hlast;
any = 0;
while (putbuf(ybuf, yanklen, 0) == 0 && --argcnt > 0)
any = 1;
if (any && es->cursor != 0)
es->cursor--;
if (argcnt != 0)
return (-1);
break;
case 'C':
modified = 1;
hnum = hlast;
del_range(es->cursor, es->linelen);
insert = INSERT;
break;
case 'D':
yank_range(es->cursor, es->linelen);
del_range(es->cursor, es->linelen);
if (es->cursor != 0)
es->cursor--;
break;
case 'g':
if (!argcnt)
argcnt = hlast;
/* FALLTHROUGH */
case 'G':
if (!argcnt)
argcnt = 1;
else
argcnt = hlast - (source->line - argcnt);
if (grabhist(modified, argcnt - 1) < 0)
return (-1);
else {
modified = 0;
hnum = argcnt - 1;
}
break;
case 'i':
modified = 1;
hnum = hlast;
insert = INSERT;
break;
case 'I':
modified = 1;
hnum = hlast;
es->cursor = domove(1, "^", 1);
insert = INSERT;
break;
case 'j':
case '+':
case Ctrl('n'):
if (grabhist(modified, hnum + argcnt) < 0)
return (-1);
else {
modified = 0;
hnum += argcnt;
}
break;
case 'k':
case '-':
case Ctrl('p'):
if (grabhist(modified, hnum - argcnt) < 0)
return (-1);
else {
modified = 0;
hnum -= argcnt;
}
break;
case 'r':
if (es->linelen == 0)
return (-1);
modified = 1;
hnum = hlast;
if (cmd[1] == 0)
vi_error();
else {
int n;
if (es->cursor + argcnt > es->linelen)
return (-1);
for (n = 0; n < argcnt; ++n)
es->cbuf[es->cursor + n] = cmd[1];
es->cursor += n - 1;
}
break;
case 'R':
modified = 1;
hnum = hlast;
insert = REPLACE;
break;
case 's':
if (es->linelen == 0)
return (-1);
modified = 1;
hnum = hlast;
if (es->cursor + argcnt > es->linelen)
argcnt = es->linelen - es->cursor;
del_range(es->cursor, es->cursor + argcnt);
insert = INSERT;
break;
case 'v':
if (!argcnt) {
if (es->linelen == 0)
return (-1);
if (modified) {
es->cbuf[es->linelen] = '\0';
histsave(&source->line, es->cbuf, true,
true);
} else
argcnt = source->line + 1 -
(hlast - hnum);
}
if (argcnt)
shf_snprintf(es->cbuf, es->cbufsize, "%s %d",
"fc -e ${VISUAL:-${EDITOR:-vi}} --",
argcnt);
else
strlcpy(es->cbuf,
"fc -e ${VISUAL:-${EDITOR:-vi}} --",
es->cbufsize);
es->linelen = strlen(es->cbuf);
return (2);
case 'x':
if (es->linelen == 0)
return (-1);
modified = 1;
hnum = hlast;
if (es->cursor + argcnt > es->linelen)
argcnt = es->linelen - es->cursor;
yank_range(es->cursor, es->cursor + argcnt);
del_range(es->cursor, es->cursor + argcnt);
break;
case 'X':
if (es->cursor > 0) {
modified = 1;
hnum = hlast;
if (es->cursor < argcnt)
argcnt = es->cursor;
yank_range(es->cursor - argcnt, es->cursor);
del_range(es->cursor - argcnt, es->cursor);
es->cursor -= argcnt;
} else
return (-1);
break;
case 'u':
t = es;
es = undo;
undo = t;
break;
case 'U':
if (!modified)
return (-1);
if (grabhist(modified, ohnum) < 0)
return (-1);
modified = 0;
hnum = ohnum;
break;
case '?':
if (hnum == hlast)
hnum = -1;
/* ahhh */
case '/':
c3 = 1;
srchlen = 0;
lastsearch = *cmd;
/* FALLTHROUGH */
case 'n':
case 'N':
if (lastsearch == ' ')
return (-1);
if (lastsearch == '?')
c1 = 1;
else
c1 = 0;
if (*cmd == 'N')
c1 = !c1;
if ((c2 = grabsearch(modified, hnum,
c1, srchpat)) < 0) {
if (c3) {
restore_cbuf();
refresh(0);
}
return (-1);
} else {
modified = 0;
hnum = c2;
ohnum = hnum;
}
break;
case '_':
{
int inspace;
char *p, *sp;
if (histnum(-1) < 0)
return (-1);
p = *histpos();
#define issp(c) (ksh_isspace(c) || (c) == '\n')
if (argcnt) {
while (*p && issp(*p))
p++;
while (*p && --argcnt) {
while (*p && !issp(*p))
p++;
while (*p && issp(*p))
p++;
}
if (!*p)
return (-1);
sp = p;
} else {
sp = p;
inspace = 0;
while (*p) {
if (issp(*p))
inspace = 1;
else if (inspace) {
inspace = 0;
sp = p;
}
p++;
}
p = sp;
}
modified = 1;
hnum = hlast;
if (es->cursor != es->linelen)
es->cursor++;
while (*p && !issp(*p)) {
argcnt++;
p++;
}
if (putbuf(" ", 1, 0) != 0)
argcnt = -1;
else if (putbuf(sp, argcnt, 0) != 0)
argcnt = -1;
if (argcnt < 0) {
if (es->cursor != 0)
es->cursor--;
return (-1);
}
insert = INSERT;
}
break;
case '~':
{
char *p;
int i;
if (es->linelen == 0)
return (-1);
for (i = 0; i < argcnt; i++) {
p = &es->cbuf[es->cursor];
if (ksh_islower(*p)) {
modified = 1;
hnum = hlast;
*p = ksh_toupper(*p);
} else if (ksh_isupper(*p)) {
modified = 1;
hnum = hlast;
*p = ksh_tolower(*p);
}
if (es->cursor < es->linelen - 1)
es->cursor++;
}
break;
}
case '#':
{
int ret = x_do_comment(es->cbuf, es->cbufsize,
&es->linelen);
if (ret >= 0)
es->cursor = 0;
return (ret);
}
/* AT&T ksh */
case '=':
/* Nonstandard vi/ksh */
case Ctrl('e'):
print_expansions(es, 1);
break;
/* Nonstandard vi/ksh */
case Ctrl('i'):
if (!Flag(FVITABCOMPLETE))
return (-1);
complete_word(1, argcnt);
break;
/* some annoying AT&T kshs */
case Ctrl('['):
if (!Flag(FVIESCCOMPLETE))
return (-1);
/* AT&T ksh */
case '\\':
/* Nonstandard vi/ksh */
case Ctrl('f'):
complete_word(1, argcnt);
break;
/* AT&T ksh */
case '*':
/* Nonstandard vi/ksh */
case Ctrl('x'):
expand_word(1);
break;
}
if (insert == 0 && es->cursor != 0 && es->cursor >= es->linelen)
es->cursor--;
}
return (0);
}
static int
domove(int argcnt, const char *cmd, int sub)
{
int bcount, i = 0, t;
int ncursor = 0;
switch (*cmd) {
case 'b':
if (!sub && es->cursor == 0)
return (-1);
ncursor = backword(argcnt);
break;
case 'B':
if (!sub && es->cursor == 0)
return (-1);
ncursor = Backword(argcnt);
break;
case 'e':
if (!sub && es->cursor + 1 >= es->linelen)
return (-1);
ncursor = endword(argcnt);
if (sub && ncursor < es->linelen)
ncursor++;
break;
case 'E':
if (!sub && es->cursor + 1 >= es->linelen)
return (-1);
ncursor = Endword(argcnt);
if (sub && ncursor < es->linelen)
ncursor++;
break;
case 'f':
case 'F':
case 't':
case 'T':
fsavecmd = *cmd;
fsavech = cmd[1];
/* drop through */
case ',':
case ';':
if (fsavecmd == ' ')
return (-1);
i = fsavecmd == 'f' || fsavecmd == 'F';
t = fsavecmd > 'a';
if (*cmd == ',')
t = !t;
if ((ncursor = findch(fsavech, argcnt, t, i)) < 0)
return (-1);
if (sub && t)
ncursor++;
break;
case 'h':
case Ctrl('h'):
if (!sub && es->cursor == 0)
return (-1);
ncursor = es->cursor - argcnt;
if (ncursor < 0)
ncursor = 0;
break;
case ' ':
case 'l':
if (!sub && es->cursor + 1 >= es->linelen)
return (-1);
if (es->linelen != 0) {
ncursor = es->cursor + argcnt;
if (ncursor > es->linelen)
ncursor = es->linelen;
}
break;
case 'w':
if (!sub && es->cursor + 1 >= es->linelen)
return (-1);
ncursor = forwword(argcnt);
break;
case 'W':
if (!sub && es->cursor + 1 >= es->linelen)
return (-1);
ncursor = Forwword(argcnt);
break;
case '0':
ncursor = 0;
break;
case '^':
ncursor = 0;
while (ncursor < es->linelen - 1 &&
ksh_isspace(es->cbuf[ncursor]))
ncursor++;
break;
case '|':
ncursor = argcnt;
if (ncursor > es->linelen)
ncursor = es->linelen;
if (ncursor)
ncursor--;
break;
case '$':
if (es->linelen != 0)
ncursor = es->linelen;
else
ncursor = 0;
break;
case '%':
ncursor = es->cursor;
while (ncursor < es->linelen &&
(i = bracktype(es->cbuf[ncursor])) == 0)
ncursor++;
if (ncursor == es->linelen)
return (-1);
bcount = 1;
do {
if (i > 0) {
if (++ncursor >= es->linelen)
return (-1);
} else {
if (--ncursor < 0)
return (-1);
}
t = bracktype(es->cbuf[ncursor]);
if (t == i)
bcount++;
else if (t == -i)
bcount--;
} while (bcount != 0);
if (sub && i > 0)
ncursor++;
break;
default:
return (-1);
}
return (ncursor);
}
static int
redo_insert(int count)
{
while (count-- > 0)
if (putbuf(ibuf, inslen, insert == REPLACE) != 0)
return (-1);
if (es->cursor > 0)
es->cursor--;
insert = 0;
return (0);
}
static void
yank_range(int a, int b)
{
yanklen = b - a;
if (yanklen != 0)
memmove(ybuf, &es->cbuf[a], yanklen);
}
static int
bracktype(int ch)
{
switch (ch) {
case '(':
return (1);
case '[':
return (2);
case '{':
return (3);
case ')':
return (-1);
case ']':
return (-2);
case '}':
return (-3);
default:
return (0);
}
}
/*
* Non user interface editor routines below here
*/
static void
save_cbuf(void)
{
memmove(holdbuf, es->cbuf, es->linelen);
holdlen = es->linelen;
holdbuf[holdlen] = '\0';
}
static void
restore_cbuf(void)
{
es->cursor = 0;
es->linelen = holdlen;
memmove(es->cbuf, holdbuf, holdlen);
}
/* return a new edstate */
static struct edstate *
save_edstate(struct edstate *old)
{
struct edstate *news;
news = alloc(sizeof(struct edstate), APERM);
news->cbuf = alloc(old->cbufsize, APERM);
memcpy(news->cbuf, old->cbuf, old->linelen);
news->cbufsize = old->cbufsize;
news->linelen = old->linelen;
news->cursor = old->cursor;
news->winleft = old->winleft;
return (news);
}
static void
restore_edstate(struct edstate *news, struct edstate *old)
{
memcpy(news->cbuf, old->cbuf, old->linelen);
news->linelen = old->linelen;
news->cursor = old->cursor;
news->winleft = old->winleft;
free_edstate(old);
}
static void
free_edstate(struct edstate *old)
{
afree(old->cbuf, APERM);
afree(old, APERM);
}
/*
* this is used for calling x_escape() in complete_word()
*/
static int
x_vi_putbuf(const char *s, size_t len)
{
return (putbuf(s, len, 0));
}
static int
putbuf(const char *buf, ssize_t len, int repl)
{
if (len == 0)
return (0);
if (repl) {
if (es->cursor + len >= es->cbufsize)
return (-1);
if (es->cursor + len > es->linelen)
es->linelen = es->cursor + len;
} else {
if (es->linelen + len >= es->cbufsize)
return (-1);
memmove(&es->cbuf[es->cursor + len], &es->cbuf[es->cursor],
es->linelen - es->cursor);
es->linelen += len;
}
memmove(&es->cbuf[es->cursor], buf, len);
es->cursor += len;
return (0);
}
static void
del_range(int a, int b)
{
if (es->linelen != b)
memmove(&es->cbuf[a], &es->cbuf[b], es->linelen - b);
es->linelen -= b - a;
}
static int
findch(int ch, int cnt, int forw, int incl)
{
int ncursor;
if (es->linelen == 0)
return (-1);
ncursor = es->cursor;
while (cnt--) {
do {
if (forw) {
if (++ncursor == es->linelen)
return (-1);
} else {
if (--ncursor < 0)
return (-1);
}
} while (es->cbuf[ncursor] != ch);
}
if (!incl) {
if (forw)
ncursor--;
else
ncursor++;
}
return (ncursor);
}
static int
forwword(int argcnt)
{
int ncursor;
ncursor = es->cursor;
while (ncursor < es->linelen && argcnt--) {
if (ksh_isalnux(es->cbuf[ncursor]))
while (ksh_isalnux(es->cbuf[ncursor]) &&
ncursor < es->linelen)
ncursor++;
else if (!ksh_isspace(es->cbuf[ncursor]))
while (!ksh_isalnux(es->cbuf[ncursor]) &&
!ksh_isspace(es->cbuf[ncursor]) &&
ncursor < es->linelen)
ncursor++;
while (ksh_isspace(es->cbuf[ncursor]) &&
ncursor < es->linelen)
ncursor++;
}
return (ncursor);
}
static int
backword(int argcnt)
{
int ncursor;
ncursor = es->cursor;
while (ncursor > 0 && argcnt--) {
while (--ncursor > 0 && ksh_isspace(es->cbuf[ncursor]))
;
if (ncursor > 0) {
if (ksh_isalnux(es->cbuf[ncursor]))
while (--ncursor >= 0 &&
ksh_isalnux(es->cbuf[ncursor]))
;
else
while (--ncursor >= 0 &&
!ksh_isalnux(es->cbuf[ncursor]) &&
!ksh_isspace(es->cbuf[ncursor]))
;
ncursor++;
}
}
return (ncursor);
}
static int
endword(int argcnt)
{
int ncursor;
ncursor = es->cursor;
while (ncursor < es->linelen && argcnt--) {
while (++ncursor < es->linelen - 1 &&
ksh_isspace(es->cbuf[ncursor]))
;
if (ncursor < es->linelen - 1) {
if (ksh_isalnux(es->cbuf[ncursor]))
while (++ncursor < es->linelen &&
ksh_isalnux(es->cbuf[ncursor]))
;
else
while (++ncursor < es->linelen &&
!ksh_isalnux(es->cbuf[ncursor]) &&
!ksh_isspace(es->cbuf[ncursor]))
;
ncursor--;
}
}
return (ncursor);
}
static int
Forwword(int argcnt)
{
int ncursor;
ncursor = es->cursor;
while (ncursor < es->linelen && argcnt--) {
while (!ksh_isspace(es->cbuf[ncursor]) &&
ncursor < es->linelen)
ncursor++;
while (ksh_isspace(es->cbuf[ncursor]) &&
ncursor < es->linelen)
ncursor++;
}
return (ncursor);
}
static int
Backword(int argcnt)
{
int ncursor;
ncursor = es->cursor;
while (ncursor > 0 && argcnt--) {
while (--ncursor >= 0 && ksh_isspace(es->cbuf[ncursor]))
;
while (ncursor >= 0 && !ksh_isspace(es->cbuf[ncursor]))
ncursor--;
ncursor++;
}
return (ncursor);
}
static int
Endword(int argcnt)
{
int ncursor;
ncursor = es->cursor;
while (ncursor < es->linelen - 1 && argcnt--) {
while (++ncursor < es->linelen - 1 &&
ksh_isspace(es->cbuf[ncursor]))
;
if (ncursor < es->linelen - 1) {
while (++ncursor < es->linelen &&
!ksh_isspace(es->cbuf[ncursor]))
;
ncursor--;
}
}
return (ncursor);
}
static int
grabhist(int save, int n)
{
char *hptr;
if (n < 0 || n > hlast)
return (-1);
if (n == hlast) {
restore_cbuf();
ohnum = n;
return (0);
}
(void)histnum(n);
if ((hptr = *histpos()) == NULL) {
internal_warningf("%s: %s", "grabhist", "bad history array");
return (-1);
}
if (save)
save_cbuf();
if ((es->linelen = strlen(hptr)) >= es->cbufsize)
es->linelen = es->cbufsize - 1;
memmove(es->cbuf, hptr, es->linelen);
es->cursor = 0;
ohnum = n;
return (0);
}
static int
grabsearch(int save, int start, int fwd, char *pat)
{
char *hptr;
int hist;
int anchored;
if ((start == 0 && fwd == 0) || (start >= hlast - 1 && fwd == 1))
return (-1);
if (fwd)
start++;
else
start--;
anchored = *pat == '^' ? (++pat, 1) : 0;
if ((hist = findhist(start, fwd, pat, anchored)) < 0) {
/* if (start != 0 && fwd && match(holdbuf, pat) >= 0) {} */
/* XXX should strcmp be strncmp? */
if (start != 0 && fwd && strcmp(holdbuf, pat) >= 0) {
restore_cbuf();
return (0);
} else
return (-1);
}
if (save)
save_cbuf();
histnum(hist);
hptr = *histpos();
if ((es->linelen = strlen(hptr)) >= es->cbufsize)
es->linelen = es->cbufsize - 1;
memmove(es->cbuf, hptr, es->linelen);
es->cursor = 0;
return (hist);
}
static void
redraw_line(bool newl)
{
if (wbuf_len)
memset(wbuf[win], ' ', wbuf_len);
if (newl) {
x_putc('\r');
x_putc('\n');
}
if (prompt_redraw)
pprompt(prompt, prompt_trunc);
cur_col = pwidth;
morec = ' ';
}
static void
refresh(int leftside)
{
if (leftside < 0)
leftside = lastref;
else
lastref = leftside;
if (outofwin())
rewindow();
display(wbuf[1 - win], wbuf[win], leftside);
win = 1 - win;
}
static int
outofwin(void)
{
int cur, col;
if (es->cursor < es->winleft)
return (1);
col = 0;
cur = es->winleft;
while (cur < es->cursor)
col = newcol((unsigned char)es->cbuf[cur++], col);
if (col >= winwidth)
return (1);
return (0);
}
static void
rewindow(void)
{
int tcur, tcol;
int holdcur1, holdcol1;
int holdcur2, holdcol2;
holdcur1 = holdcur2 = tcur = 0;
holdcol1 = holdcol2 = tcol = 0;
while (tcur < es->cursor) {
if (tcol - holdcol2 > winwidth / 2) {
holdcur1 = holdcur2;
holdcol1 = holdcol2;
holdcur2 = tcur;
holdcol2 = tcol;
}
tcol = newcol((unsigned char)es->cbuf[tcur++], tcol);
}
while (tcol - holdcol1 > winwidth / 2)
holdcol1 = newcol((unsigned char)es->cbuf[holdcur1++],
holdcol1);
es->winleft = holdcur1;
}
static int
newcol(int ch, int col)
{
if (ch == '\t')
return ((col | 7) + 1);
return (col + char_len(ch));
}
static void
display(char *wb1, char *wb2, int leftside)
{
unsigned char ch;
char *twb1, *twb2, mc;
int cur, col, cnt;
int ncol = 0;
int moreright;
col = 0;
cur = es->winleft;
moreright = 0;
twb1 = wb1;
while (col < winwidth && cur < es->linelen) {
if (cur == es->cursor && leftside)
ncol = col + pwidth;
if ((ch = es->cbuf[cur]) == '\t')
do {
*twb1++ = ' ';
} while (++col < winwidth && (col & 7) != 0);
else if (col < winwidth) {
if (ch < ' ' || ch == 0x7f) {
*twb1++ = '^';
if (++col < winwidth) {
*twb1++ = ch ^ '@';
col++;
}
} else {
*twb1++ = ch;
col++;
}
}
if (cur == es->cursor && !leftside)
ncol = col + pwidth - 1;
cur++;
}
if (cur == es->cursor)
ncol = col + pwidth;
if (col < winwidth) {
while (col < winwidth) {
*twb1++ = ' ';
col++;
}
} else
moreright++;
*twb1 = ' ';
col = pwidth;
cnt = winwidth;
twb1 = wb1;
twb2 = wb2;
while (cnt--) {
if (*twb1 != *twb2) {
if (cur_col != col)
ed_mov_opt(col, wb1);
x_putc(*twb1);
cur_col++;
}
twb1++;
twb2++;
col++;
}
if (es->winleft > 0 && moreright)
/*
* POSIX says to use * for this but that is a globbing
* character and may confuse people; + is more innocuous
*/
mc = '+';
else if (es->winleft > 0)
mc = '<';
else if (moreright)
mc = '>';
else
mc = ' ';
if (mc != morec) {
ed_mov_opt(pwidth + winwidth + 1, wb1);
x_putc(mc);
cur_col++;
morec = mc;
}
if (cur_col != ncol)
ed_mov_opt(ncol, wb1);
}
static void
ed_mov_opt(int col, char *wb)
{
if (col < cur_col) {
if (col + 1 < cur_col - col) {
x_putc('\r');
if (prompt_redraw)
pprompt(prompt, prompt_trunc);
cur_col = pwidth;
while (cur_col++ < col)
x_putcf(*wb++);
} else {
while (cur_col-- > col)
x_putc('\b');
}
} else {
wb = &wb[cur_col - pwidth];
while (cur_col++ < col)
x_putcf(*wb++);
}
cur_col = col;
}
/* replace word with all expansions (ie, expand word*) */
static int
expand_word(int cmd)
{
static struct edstate *buf;
int rval = 0, nwords, start, end, i;
char **words;
/* Undo previous expansion */
if (cmd == 0 && expanded == EXPAND && buf) {
restore_edstate(es, buf);
buf = 0;
expanded = NONE;
return (0);
}
if (buf) {
free_edstate(buf);
buf = 0;
}
i = XCF_COMMAND_FILE | XCF_FULLPATH;
nwords = x_cf_glob(&i, es->cbuf, es->linelen, es->cursor,
&start, &end, &words);
if (nwords == 0) {
vi_error();
return (-1);
}
buf = save_edstate(es);
expanded = EXPAND;
del_range(start, end);
es->cursor = start;
i = 0;
while (i < nwords) {
if (x_escape(words[i], strlen(words[i]), x_vi_putbuf) != 0) {
rval = -1;
break;
}
if (++i < nwords && putbuf(" ", 1, 0) != 0) {
rval = -1;
break;
}
}
i = buf->cursor - end;
if (rval == 0 && i > 0)
es->cursor += i;
modified = 1;
hnum = hlast;
insert = INSERT;
lastac = 0;
refresh(0);
return (rval);
}
static int
complete_word(int cmd, int count)
{
static struct edstate *buf;
int rval, nwords, start, end, flags;
size_t match_len;
char **words;
char *match;
bool is_unique;
/* Undo previous completion */
if (cmd == 0 && expanded == COMPLETE && buf) {
print_expansions(buf, 0);
expanded = PRINT;
return (0);
}
if (cmd == 0 && expanded == PRINT && buf) {
restore_edstate(es, buf);
buf = 0;
expanded = NONE;
return (0);
}
if (buf) {
free_edstate(buf);
buf = 0;
}
/*
* XCF_FULLPATH for count 'cause the menu printed by
* print_expansions() was done this way.
*/
flags = XCF_COMMAND_FILE;
if (count)
flags |= XCF_FULLPATH;
nwords = x_cf_glob(&flags, es->cbuf, es->linelen, es->cursor,
&start, &end, &words);
if (nwords == 0) {
vi_error();
return (-1);
}
if (count) {
int i;
count--;
if (count >= nwords) {
vi_error();
x_print_expansions(nwords, words,
tobool(flags & XCF_IS_COMMAND));
x_free_words(nwords, words);
redraw_line(false);
return (-1);
}
/*
* Expand the count'th word to its basename
*/
if (flags & XCF_IS_COMMAND) {
match = words[count] +
x_basename(words[count], NULL);
/* If more than one possible match, use full path */
for (i = 0; i < nwords; i++)
if (i != count &&
strcmp(words[i] + x_basename(words[i],
NULL), match) == 0) {
match = words[count];
break;
}
} else
match = words[count];
match_len = strlen(match);
is_unique = true;
/* expanded = PRINT; next call undo */
} else {
match = words[0];
match_len = x_longest_prefix(nwords, words);
/* next call will list completions */
expanded = COMPLETE;
is_unique = nwords == 1;
}
buf = save_edstate(es);
del_range(start, end);
es->cursor = start;
/*
* escape all shell-sensitive characters and put the result into
* command buffer
*/
rval = x_escape(match, match_len, x_vi_putbuf);
if (rval == 0 && is_unique) {
/*
* If exact match, don't undo. Allows directory completions
* to be used (ie, complete the next portion of the path).
*/
expanded = NONE;
/*
* append a space if this is a non-directory match
* and not a parameter or homedir substitution
*/
if (match_len > 0 && match[match_len - 1] != '/' &&
!(flags & XCF_IS_SUBGLOB))
rval = putbuf(" ", 1, 0);
}
x_free_words(nwords, words);
modified = 1;
hnum = hlast;
insert = INSERT;
/* prevent this from being redone... */
lastac = 0;
refresh(0);
return (rval);
}
static int
print_expansions(struct edstate *est, int cmd MKSH_A_UNUSED)
{
int start, end, nwords, i;
char **words;
i = XCF_COMMAND_FILE | XCF_FULLPATH;
nwords = x_cf_glob(&i, est->cbuf, est->linelen, est->cursor,
&start, &end, &words);
if (nwords == 0) {
vi_error();
return (-1);
}
x_print_expansions(nwords, words, tobool(i & XCF_IS_COMMAND));
x_free_words(nwords, words);
redraw_line(false);
return (0);
}
/* Similar to x_zotc(emacs.c), but no tab weirdness */
static void
x_vi_zotc(int c)
{
if (c < ' ' || c == 0x7f) {
x_putc('^');
c ^= '@';
}
x_putc(c);
}
static void
vi_error(void)
{
/* Beem out of any macros as soon as an error occurs */
vi_macro_reset();
x_putc(7);
x_flush();
}
static void
vi_macro_reset(void)
{
if (macro.p) {
afree(macro.buf, APERM);
memset((char *)&macro, 0, sizeof(macro));
}
}
#endif /* !MKSH_S_NOVI */
void
x_mkraw(int fd, struct termios *ocb, bool forread)
{
struct termios cb;
if (ocb)
tcgetattr(fd, ocb);
else
ocb = &tty_state;
cb = *ocb;
if (forread) {
cb.c_lflag &= ~(ICANON) | ECHO;
} else {
cb.c_iflag &= ~(INLCR | ICRNL);
cb.c_lflag &= ~(ISIG | ICANON | ECHO);
}
#if defined(VLNEXT) && defined(_POSIX_VDISABLE)
/* OSF/1 processes lnext when ~icanon */
cb.c_cc[VLNEXT] = _POSIX_VDISABLE;
#endif
/* SunOS 4.1.x & OSF/1 processes discard(flush) when ~icanon */
#if defined(VDISCARD) && defined(_POSIX_VDISABLE)
cb.c_cc[VDISCARD] = _POSIX_VDISABLE;
#endif
cb.c_cc[VTIME] = 0;
cb.c_cc[VMIN] = 1;
tcsetattr(fd, TCSADRAIN, &cb);
}
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