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/*
* prompt.c - construct zsh prompts
*
* This file is part of zsh, the Z shell.
*
* Copyright (c) 1992-1997 Paul Falstad
* All rights reserved.
*
* Permission is hereby granted, without written agreement and without
* license or royalty fees, to use, copy, modify, and distribute this
* software and to distribute modified versions of this software for any
* purpose, provided that the above copyright notice and the following
* two paragraphs appear in all copies of this software.
*
* In no event shall Paul Falstad or the Zsh Development Group be liable
* to any party for direct, indirect, special, incidental, or consequential
* damages arising out of the use of this software and its documentation,
* even if Paul Falstad and the Zsh Development Group have been advised of
* the possibility of such damage.
*
* Paul Falstad and the Zsh Development Group specifically disclaim any
* warranties, including, but not limited to, the implied warranties of
* merchantability and fitness for a particular purpose. The software
* provided hereunder is on an "as is" basis, and Paul Falstad and the
* Zsh Development Group have no obligation to provide maintenance,
* support, updates, enhancements, or modifications.
*
*/
#include "zsh.mdh"
#include "prompt.pro"
/* text attribute mask */
/**/
mod_export unsigned txtattrmask;
/* the command stack for use with %_ in prompts */
/**/
unsigned char *cmdstack;
/**/
int cmdsp;
/* parser states, for %_ */
static char *cmdnames[CS_COUNT] = {
"for", "while", "repeat", "select",
"until", "if", "then", "else",
"elif", "math", "cond", "cmdor",
"cmdand", "pipe", "errpipe", "foreach",
"case", "function", "subsh", "cursh",
"array", "quote", "dquote", "bquote",
"cmdsubst", "mathsubst", "elif-then", "heredoc",
"heredocd", "brace", "braceparam", "always",
};
struct buf_vars;
struct buf_vars {
/* Previous set of prompt variables on the stack. */
struct buf_vars *last;
/* The buffer into which an expanded and metafied prompt is being written, *
* and its size. */
char *buf;
int bufspc;
/* bp is the pointer to the current position in the buffer, where the next *
* character will be added. */
char *bp;
/* Position of the start of the current line in the buffer */
char *bufline;
/* bp1 is an auxiliary pointer into the buffer, which when non-NULL is *
* moved whenever the buffer is reallocated. It is used when data is *
* being temporarily held in the buffer. */
char *bp1;
/* The format string, for %-expansion. */
char *fm;
/* Non-zero if truncating the current segment of the buffer. */
int truncwidth;
/* Current level of nesting of %{ / %} sequences. */
int dontcount;
/* Level of %{ / %} surrounding a truncation segment. */
int trunccount;
/* Strings to use for %r and %R (for the spelling prompt). */
char *rstring, *Rstring;
};
typedef struct buf_vars *Buf_vars;
/* The currently active prompt output variables */
static Buf_vars bv;
/*
* Expand path p; maximum is npath segments where 0 means the whole path.
* If tilde is 1, try and find a named directory to use.
*/
static void
promptpath(char *p, int npath, int tilde)
{
char *modp = p;
Nameddir nd;
if (tilde && ((nd = finddir(p))))
modp = tricat("~", nd->node.nam, p + strlen(nd->dir));
if (npath) {
char *sptr;
if (npath > 0) {
for (sptr = modp + strlen(modp); sptr > modp; sptr--) {
if (*sptr == '/' && !--npath) {
sptr++;
break;
}
}
if (*sptr == '/' && sptr[1] && sptr != modp)
sptr++;
stradd(sptr);
} else {
char cbu;
for (sptr = modp+1; *sptr; sptr++)
if (*sptr == '/' && !++npath)
break;
cbu = *sptr;
*sptr = 0;
stradd(modp);
*sptr = cbu;
}
} else
stradd(modp);
if (p != modp)
zsfree(modp);
}
/*
* Perform prompt expansion on a string, putting the result in a
* permanently-allocated string. If ns is non-zero, this string
* may have embedded Inpar and Outpar, which indicate a toggling
* between spacing and non-spacing parts of the prompt, and
* Nularg, which (in a non-spacing sequence) indicates a
* `glitch' space.
*
* txtchangep gives an integer controlling the attributes of
* the prompt. This is for use in zle to maintain the attributes
* consistenly. Other parts of the shell should not need to use it.
*/
/**/
mod_export char *
promptexpand(char *s, int ns, char *rs, char *Rs, unsigned int *txtchangep)
{
struct buf_vars new_vars;
if(!s)
return ztrdup("");
if ((termflags & TERM_UNKNOWN) && (unset(INTERACTIVE)))
init_term();
if (isset(PROMPTSUBST)) {
int olderr = errflag;
int oldval = lastval;
s = dupstring(s);
if (!parsestr(s))
singsub(&s);
/*
* We don't need the special Nularg hack here and we're
* going to be using Nularg for other things.
*/
if (*s == Nularg && s[1] == '\0')
*s = '\0';
/* Ignore errors and status change in prompt substitution */
errflag = olderr;
lastval = oldval;
}
memset(&new_vars, 0, sizeof(new_vars));
new_vars.last = bv;
bv = &new_vars;
new_vars.rstring = rs;
new_vars.Rstring = Rs;
new_vars.fm = s;
new_vars.bufspc = 256;
new_vars.bp = new_vars.bufline = new_vars.buf = zshcalloc(new_vars.bufspc);
new_vars.bp1 = NULL;
new_vars.truncwidth = 0;
putpromptchar(1, '\0', txtchangep);
addbufspc(2);
if (new_vars.dontcount)
*new_vars.bp++ = Outpar;
*new_vars.bp = '\0';
if (!ns) {
/* If zero, Inpar, Outpar and Nularg should be removed. */
for (new_vars.bp = new_vars.buf; *new_vars.bp; ) {
if (*new_vars.bp == Meta)
new_vars.bp += 2;
else if (*new_vars.bp == Inpar || *new_vars.bp == Outpar ||
*new_vars.bp == Nularg)
chuck(new_vars.bp);
else
new_vars.bp++;
}
}
bv = new_vars.last;
return new_vars.buf;
}
/* Perform %- and !-expansion as required on a section of the prompt. The *
* section is ended by an instance of endchar. If doprint is 0, the valid *
* % sequences are merely skipped over, and nothing is stored. */
/**/
static int
putpromptchar(int doprint, int endchar, unsigned int *txtchangep)
{
char *ss, *hostnam;
int t0, arg, test, sep, j, numjobs;
struct tm *tm;
time_t timet;
Nameddir nd;
for (; *bv->fm && *bv->fm != endchar; bv->fm++) {
arg = 0;
if (*bv->fm == '%' && isset(PROMPTPERCENT)) {
int minus = 0;
bv->fm++;
if (*bv->fm == '-') {
minus = 1;
bv->fm++;
}
if (idigit(*bv->fm)) {
arg = zstrtol(bv->fm, &bv->fm, 10);
if (minus)
arg *= -1;
} else if (minus)
arg = -1;
if (*bv->fm == '(') {
int tc, otruncwidth;
if (idigit(*++bv->fm)) {
arg = zstrtol(bv->fm, &bv->fm, 10);
} else if (arg < 0) {
/* negative numbers don't make sense here */
arg *= -1;
}
test = 0;
ss = pwd;
switch (tc = *bv->fm) {
case 'c':
case '.':
case '~':
if ((nd = finddir(ss))) {
arg--;
ss += strlen(nd->dir);
} /*FALLTHROUGH*/
case '/':
case 'C':
/* `/' gives 0, `/any' gives 1, etc. */
if (*ss++ == '/' && *ss)
arg--;
for (; *ss; ss++)
if (*ss == '/')
arg--;
if (arg <= 0)
test = 1;
break;
case 't':
case 'T':
case 'd':
case 'D':
case 'w':
timet = time(NULL);
tm = localtime(&timet);
switch (tc) {
case 't':
test = (arg == tm->tm_min);
break;
case 'T':
test = (arg == tm->tm_hour);
break;
case 'd':
test = (arg == tm->tm_mday);
break;
case 'D':
test = (arg == tm->tm_mon);
break;
case 'w':
test = (arg == tm->tm_wday);
break;
}
break;
case '?':
if (lastval == arg)
test = 1;
break;
case '#':
if (geteuid() == (uid_t)arg)
test = 1;
break;
case 'g':
if (getegid() == (gid_t)arg)
test = 1;
break;
case 'j':
for (numjobs = 0, j = 1; j <= maxjob; j++)
if (jobtab[j].stat && jobtab[j].procs &&
!(jobtab[j].stat & STAT_NOPRINT)) numjobs++;
if (numjobs >= arg)
test = 1;
break;
case 'l':
*bv->bp = '\0';
countprompt(bv->bufline, &t0, 0, 0);
if (t0 >= arg)
test = 1;
break;
case 'L':
if (shlvl >= arg)
test = 1;
break;
case 'S':
if (time(NULL) - shtimer.tv_sec >= arg)
test = 1;
break;
case 'v':
if (arrlen(psvar) >= arg)
test = 1;
break;
case 'V':
if (arrlen(psvar) >= arg) {
if (*psvar[(arg ? arg : 1) - 1])
test = 1;
}
break;
case '_':
test = (cmdsp >= arg);
break;
case '!':
test = privasserted();
break;
default:
test = -1;
break;
}
if (!*bv->fm || !(sep = *++bv->fm))
return 0;
bv->fm++;
/* Don't do the current truncation until we get back */
otruncwidth = bv->truncwidth;
bv->truncwidth = 0;
if (!putpromptchar(test == 1 && doprint, sep,
txtchangep) || !*++bv->fm ||
!putpromptchar(test == 0 && doprint, ')',
txtchangep)) {
bv->truncwidth = otruncwidth;
return 0;
}
bv->truncwidth = otruncwidth;
continue;
}
if (!doprint)
switch(*bv->fm) {
case '[':
while(idigit(*++bv->fm));
while(*++bv->fm != ']');
continue;
case '<':
while(*++bv->fm != '<');
continue;
case '>':
while(*++bv->fm != '>');
continue;
case 'D':
if(bv->fm[1]=='{')
while(*++bv->fm != '}');
continue;
default:
continue;
}
switch (*bv->fm) {
case '~':
promptpath(pwd, arg, 1);
break;
case 'd':
case '/':
promptpath(pwd, arg, 0);
break;
case 'c':
case '.':
promptpath(pwd, arg ? arg : 1, 1);
break;
case 'C':
promptpath(pwd, arg ? arg : 1, 0);
break;
case 'N':
promptpath(scriptname ? scriptname : argzero, arg, 0);
break;
case 'h':
case '!':
addbufspc(DIGBUFSIZE);
convbase(bv->bp, curhist, 10);
bv->bp += strlen(bv->bp);
break;
case 'j':
for (numjobs = 0, j = 1; j <= maxjob; j++)
if (jobtab[j].stat && jobtab[j].procs &&
!(jobtab[j].stat & STAT_NOPRINT)) numjobs++;
addbufspc(DIGBUFSIZE);
sprintf(bv->bp, "%d", numjobs);
bv->bp += strlen(bv->bp);
break;
case 'M':
queue_signals();
if ((hostnam = getsparam("HOST")))
stradd(hostnam);
unqueue_signals();
break;
case 'm':
if (!arg)
arg++;
queue_signals();
if (!(hostnam = getsparam("HOST")))
break;
if (arg < 0) {
for (ss = hostnam + strlen(hostnam); ss > hostnam; ss--)
if (ss[-1] == '.' && !++arg)
break;
stradd(ss);
} else {
for (ss = hostnam; *ss; ss++)
if (*ss == '.' && !--arg)
break;
stradd(*ss ? dupstrpfx(hostnam, ss - hostnam) : hostnam);
}
unqueue_signals();
break;
case 'S':
txtchangeset(txtchangep, TXTSTANDOUT, TXTNOSTANDOUT);
txtset(TXTSTANDOUT);
tsetcap(TCSTANDOUTBEG, TSC_PROMPT);
break;
case 's':
txtchangeset(txtchangep, TXTNOSTANDOUT, TXTSTANDOUT);
txtunset(TXTSTANDOUT);
tsetcap(TCSTANDOUTEND, TSC_PROMPT|TSC_DIRTY);
break;
case 'B':
txtchangeset(txtchangep, TXTBOLDFACE, TXTNOBOLDFACE);
txtset(TXTBOLDFACE);
tsetcap(TCBOLDFACEBEG, TSC_PROMPT|TSC_DIRTY);
break;
case 'b':
txtchangeset(txtchangep, TXTNOBOLDFACE, TXTBOLDFACE);
txtchangeset(txtchangep, TXTNOSTANDOUT, TXTSTANDOUT);
txtchangeset(txtchangep, TXTNOUNDERLINE, TXTUNDERLINE);
txtunset(TXTBOLDFACE);
tsetcap(TCALLATTRSOFF, TSC_PROMPT|TSC_DIRTY);
break;
case 'U':
txtchangeset(txtchangep, TXTUNDERLINE, TXTNOUNDERLINE);
txtset(TXTUNDERLINE);
tsetcap(TCUNDERLINEBEG, TSC_PROMPT);
break;
case 'u':
txtchangeset(txtchangep, TXTNOUNDERLINE, TXTUNDERLINE);
txtunset(TXTUNDERLINE);
tsetcap(TCUNDERLINEEND, TSC_PROMPT|TSC_DIRTY);
break;
case 'F':
if (bv->fm[1] == '{') {
bv->fm += 2;
arg = match_colour((const char **)&bv->fm, 1, 0);
if (*bv->fm != '}')
bv->fm--;
} else
arg = match_colour(NULL, 1, arg);
if (arg >= 0 && !(arg & TXTNOFGCOLOUR)) {
txtchangeset(txtchangep, arg & TXT_ATTR_FG_ON_MASK,
TXTNOFGCOLOUR);
txtset(arg & TXT_ATTR_FG_ON_MASK);
set_colour_attribute(arg, COL_SEQ_FG, TSC_PROMPT);
break;
}
/* else FALLTHROUGH */
case 'f':
txtchangeset(txtchangep, TXTNOFGCOLOUR, TXT_ATTR_FG_ON_MASK);
txtunset(TXT_ATTR_FG_ON_MASK);
set_colour_attribute(TXTNOFGCOLOUR, COL_SEQ_FG, TSC_PROMPT);
break;
case 'K':
if (bv->fm[1] == '{') {
bv->fm += 2;
arg = match_colour((const char **)&bv->fm, 0, 0);
if (*bv->fm != '}')
bv->fm--;
} else
arg = match_colour(NULL, 0, arg);
if (arg >= 0 && !(arg & TXTNOBGCOLOUR)) {
txtchangeset(txtchangep, arg & TXT_ATTR_BG_ON_MASK,
TXTNOBGCOLOUR);
txtset(arg & TXT_ATTR_BG_ON_MASK);
set_colour_attribute(arg, COL_SEQ_BG, TSC_PROMPT);
break;
}
/* else FALLTHROUGH */
case 'k':
txtchangeset(txtchangep, TXTNOBGCOLOUR, TXT_ATTR_BG_ON_MASK);
txtunset(TXT_ATTR_BG_ON_MASK);
set_colour_attribute(TXTNOBGCOLOUR, COL_SEQ_BG, TSC_PROMPT);
break;
case '[':
if (idigit(*++bv->fm))
arg = zstrtol(bv->fm, &bv->fm, 10);
if (!prompttrunc(arg, ']', doprint, endchar, txtchangep))
return *bv->fm;
break;
case '<':
case '>':
if (!prompttrunc(arg, *bv->fm, doprint, endchar, txtchangep))
return *bv->fm;
break;
case '{': /*}*/
if (!bv->dontcount++) {
addbufspc(1);
*bv->bp++ = Inpar;
}
if (arg <= 0)
break;
/* else */
/* FALLTHROUGH */
case 'G':
if (arg > 0) {
addbufspc(arg);
while (arg--)
*bv->bp++ = Nularg;
} else {
addbufspc(1);
*bv->bp++ = Nularg;
}
break;
case /*{*/ '}':
if (bv->trunccount && bv->trunccount >= bv->dontcount)
return *bv->fm;
if (bv->dontcount && !--bv->dontcount) {
addbufspc(1);
*bv->bp++ = Outpar;
}
break;
case 't':
case '@':
case 'T':
case '*':
case 'w':
case 'W':
case 'D':
{
char *tmfmt, *dd, *tmbuf = NULL;
switch (*bv->fm) {
case 'T':
tmfmt = "%K:%M";
break;
case '*':
tmfmt = "%K:%M:%S";
break;
case 'w':
tmfmt = "%a %f";
break;
case 'W':
tmfmt = "%m/%d/%y";
break;
case 'D':
if (bv->fm[1] == '{' /*}*/) {
for (ss = bv->fm + 2; *ss && *ss != /*{*/ '}'; ss++)
if(*ss == '\\' && ss[1])
ss++;
dd = tmfmt = tmbuf = zalloc(ss - bv->fm);
for (ss = bv->fm + 2; *ss && *ss != /*{*/ '}';
ss++) {
if(*ss == '\\' && ss[1])
ss++;
*dd++ = *ss;
}
*dd = 0;
bv->fm = ss - !*ss;
if (!*tmfmt) {
free(tmbuf);
continue;
}
} else
tmfmt = "%y-%m-%d";
break;
default:
tmfmt = "%l:%M%p";
break;
}
timet = time(NULL);
tm = localtime(&timet);
/*
* Hack because strftime won't say how
* much space it actually needs. Try to add it
* a few times until it works. Some formats don't
* actually have a length, so we could go on for
* ever.
*/
for(j = 0, t0 = strlen(tmfmt)*8; j < 3; j++, t0*=2) {
addbufspc(t0);
if (ztrftime(bv->bp, t0, tmfmt, tm) >= 0)
break;
}
/* There is enough room for this because addbufspc(t0)
* allocates room for t0 * 2 bytes. */
metafy(bv->bp, -1, META_NOALLOC);
bv->bp += strlen(bv->bp);
zsfree(tmbuf);
break;
}
case 'n':
stradd(get_username());
break;
case 'l':
if (*ttystrname) {
ss = (strncmp(ttystrname, "/dev/tty", 8) ?
ttystrname + 5 : ttystrname + 8);
stradd(ss);
} else
stradd("()");
break;
case 'y':
if (*ttystrname) {
ss = (strncmp(ttystrname, "/dev/", 5) ?
ttystrname : ttystrname + 5);
stradd(ss);
} else
stradd("()");
break;
case 'L':
addbufspc(DIGBUFSIZE);
#if defined(ZLONG_IS_LONG_LONG) && defined(PRINTF_HAS_LLD)
sprintf(bv->bp, "%lld", shlvl);
#else
sprintf(bv->bp, "%ld", (long)shlvl);
#endif
bv->bp += strlen(bv->bp);
break;
case '?':
addbufspc(DIGBUFSIZE);
#if defined(ZLONG_IS_LONG_LONG) && defined(PRINTF_HAS_LLD)
sprintf(bv->bp, "%lld", lastval);
#else
sprintf(bv->bp, "%ld", (long)lastval);
#endif
bv->bp += strlen(bv->bp);
break;
case '%':
case ')':
addbufspc(1);
*bv->bp++ = *bv->fm;
break;
case '#':
addbufspc(1);
*bv->bp++ = privasserted() ? '#' : '%';
break;
case 'v':
if (!arg)
arg = 1;
else if (arg < 0)
arg += arrlen(psvar) + 1;
if (arg > 0 && arrlen(psvar) >= arg)
stradd(psvar[arg - 1]);
break;
case 'E':
tsetcap(TCCLEAREOL, TSC_PROMPT);
break;
case '^':
if (cmdsp) {
if (arg >= 0) {
if (arg > cmdsp || arg == 0)
arg = cmdsp;
for (t0 = cmdsp - 1; arg--; t0--) {
stradd(cmdnames[cmdstack[t0]]);
if (arg) {
addbufspc(1);
*bv->bp++=' ';
}
}
} else {
arg = -arg;
if (arg > cmdsp)
arg = cmdsp;
for (t0 = arg - 1; arg--; t0--) {
stradd(cmdnames[cmdstack[t0]]);
if (arg) {
addbufspc(1);
*bv->bp++=' ';
}
}
}
}
break;
case '_':
if (cmdsp) {
if (arg >= 0) {
if (arg > cmdsp || arg == 0)
arg = cmdsp;
for (t0 = cmdsp - arg; arg--; t0++) {
stradd(cmdnames[cmdstack[t0]]);
if (arg) {
addbufspc(1);
*bv->bp++=' ';
}
}
} else {
arg = -arg;
if (arg > cmdsp)
arg = cmdsp;
for (t0 = 0; arg--; t0++) {
stradd(cmdnames[cmdstack[t0]]);
if (arg) {
addbufspc(1);
*bv->bp++=' ';
}
}
}
}
break;
case 'r':
if(bv->rstring)
stradd(bv->rstring);
break;
case 'R':
if(bv->Rstring)
stradd(bv->Rstring);
break;
case 'I':
if (funcstack && funcstack->tp != FS_SOURCE &&
!IN_EVAL_TRAP()) {
/*
* We're in a function or an eval with
* EVALLINENO. Calculate the line number in
* the file.
*/
zlong flineno = lineno + funcstack->flineno;
/* take account of eval line nos. starting at 1 */
if (funcstack->tp == FS_EVAL)
lineno--;
addbufspc(DIGBUFSIZE);
#if defined(ZLONG_IS_LONG_LONG) && defined(PRINTF_HAS_LLD)
sprintf(bv->bp, "%lld", flineno);
#else
sprintf(bv->bp, "%ld", (long)flineno);
#endif
bv->bp += strlen(bv->bp);
break;
}
/* else we're in a file and lineno is already correct */
/* FALLTHROUGH */
case 'i':
addbufspc(DIGBUFSIZE);
#if defined(ZLONG_IS_LONG_LONG) && defined(PRINTF_HAS_LLD)
sprintf(bv->bp, "%lld", lineno);
#else
sprintf(bv->bp, "%ld", (long)lineno);
#endif
bv->bp += strlen(bv->bp);
break;
case 'x':
if (funcstack && funcstack->tp != FS_SOURCE &&
!IN_EVAL_TRAP())
promptpath(funcstack->filename ? funcstack->filename : "",
arg, 0);
else
promptpath(scriptfilename ? scriptfilename : argzero,
arg, 0);
break;
case '\0':
return 0;
case Meta:
bv->fm++;
break;
}
} else if(*bv->fm == '!' && isset(PROMPTBANG)) {
if(doprint) {
if(bv->fm[1] == '!') {
bv->fm++;
addbufspc(1);
pputc('!');
} else {
addbufspc(DIGBUFSIZE);
convbase(bv->bp, curhist, 10);
bv->bp += strlen(bv->bp);
}
}
} else {
char c = *bv->fm == Meta ? *++bv->fm ^ 32 : *bv->fm;
if (doprint) {
addbufspc(1);
pputc(c);
}
}
}
return *bv->fm;
}
/* pputc adds a character to the buffer, metafying. There must *
* already be space. */
/**/
static void
pputc(char c)
{
if (imeta(c)) {
*bv->bp++ = Meta;
c ^= 32;
}
*bv->bp++ = c;
if (c == '\n' && !bv->dontcount)
bv->bufline = bv->bp;
}
/* Make sure there is room for `need' more characters in the buffer. */
/**/
static void
addbufspc(int need)
{
need *= 2; /* for metafication */
if((bv->bp - bv->buf) + need > bv->bufspc) {
int bo = bv->bp - bv->buf;
int bo1 = bv->bp1 ? bv->bp1 - bv->buf : -1;
ptrdiff_t bufline_off = bv->bufline ? bv->bufline - bv->buf : -1;
if(need & 255)
need = (need | 255) + 1;
bv->buf = realloc(bv->buf, bv->bufspc += need);
bv->bp = bv->buf + bo;
if(bo1 != -1)
bv->bp1 = bv->buf + bo1;
if (bufline_off != -1)
bv->bufline = bv->buf + bufline_off;
}
}
/* stradd() adds a metafied string to the prompt, *
* in a visible representation. */
/**/
void
stradd(char *d)
{
#ifdef MULTIBYTE_SUPPORT
char *ums, *ups;
int upslen, eol = 0;
mbstate_t mbs;
memset(&mbs, 0, sizeof mbs);
ums = ztrdup(d);
ups = unmetafy(ums, &upslen);
/*
* We now have a raw string of possibly multibyte characters.
* Read each character one by one.
*/
while (upslen > 0) {
wchar_t cc;
char *pc;
size_t cnt = eol ? MB_INVALID : mbrtowc(&cc, ups, upslen, &mbs);
switch (cnt) {
case MB_INCOMPLETE:
eol = 1;
/* FALL THROUGH */
case MB_INVALID:
/* Bad character. Take the next byte on its own. */
pc = nicechar(*ups);
cnt = 1;
memset(&mbs, 0, sizeof mbs);
break;
case 0:
cnt = 1;
/* FALL THROUGH */
default:
/* Take full wide character in one go */
mb_metacharinit();
pc = wcs_nicechar(cc, NULL, NULL);
break;
}
/* Keep output as metafied string. */
addbufspc(strlen(pc));
upslen -= cnt;
ups += cnt;
/* Put printed representation into the buffer */
while (*pc)
*bv->bp++ = *pc++;
}
free(ums);
#else
char *ps, *pc;
addbufspc(niceztrlen(d));
/* This loop puts the nice representation of the string into the
* prompt buffer. */
for (ps = d; *ps; ps++) {
for (pc = nicechar(*ps == Meta ? *++ps^32 : *ps); *pc; pc++)
*bv->bp++ = *pc;
}
#endif
}
/* tsetcap(), among other things, can write a termcap string into the buffer. */
/**/
mod_export void
tsetcap(int cap, int flags)
{
if (tccan(cap) && !isset(SINGLELINEZLE) &&
!(termflags & (TERM_NOUP|TERM_BAD|TERM_UNKNOWN))) {
switch (flags & TSC_OUTPUT_MASK) {
case TSC_RAW:
tputs(tcstr[cap], 1, putraw);
break;
case 0:
default:
tputs(tcstr[cap], 1, putshout);
break;
case TSC_PROMPT:
if (!bv->dontcount) {
addbufspc(1);
*bv->bp++ = Inpar;
}
tputs(tcstr[cap], 1, putstr);
if (!bv->dontcount) {
int glitch = 0;
if (cap == TCSTANDOUTBEG || cap == TCSTANDOUTEND)
glitch = tgetnum("sg");
else if (cap == TCUNDERLINEBEG || cap == TCUNDERLINEEND)
glitch = tgetnum("ug");
if(glitch < 0)
glitch = 0;
addbufspc(glitch + 1);
while(glitch--)
*bv->bp++ = Nularg;
*bv->bp++ = Outpar;
}
break;
}
if (flags & TSC_DIRTY) {
flags &= ~TSC_DIRTY;
if (txtisset(TXTBOLDFACE) && cap != TCBOLDFACEBEG)
tsetcap(TCBOLDFACEBEG, flags);
if (txtisset(TXTSTANDOUT))
tsetcap(TCSTANDOUTBEG, flags);
if (txtisset(TXTUNDERLINE))
tsetcap(TCUNDERLINEBEG, flags);
}
}
}
/**/
int
putstr(int d)
{
addbufspc(1);
pputc(d);
return 0;
}
/*
* Count height etc. of a prompt string returned by promptexpand().
* This depends on the current terminal width, and tabs and
* newlines require nontrivial processing.
* Passing `overf' as -1 means to ignore columns (absolute width).
*
* If multibyte is enabled, take account of multibyte characters
* by locating them and finding out their screen width.
*/
/**/
mod_export void
countprompt(char *str, int *wp, int *hp, int overf)
{
int w = 0, h = 1;
int s = 1;
#ifdef MULTIBYTE_SUPPORT
int wcw, multi = 0;
char inchar;
mbstate_t mbs;
wchar_t wc;
memset(&mbs, 0, sizeof(mbs));
#endif
for (; *str; str++) {
if (w >= zterm_columns && overf >= 0) {
w = 0;
h++;
}
/*
* Input string should be metafied, so tokens in it should
* be real tokens, even if there are multibyte characters.
*/
if (*str == Inpar)
s = 0;
else if (*str == Outpar)
s = 1;
else if (*str == Nularg)
w++;
else if (s) {
if (*str == Meta) {
#ifdef MULTIBYTE_SUPPORT
inchar = *++str ^ 32;
#else
str++;
#endif
} else {
#ifdef MULTIBYTE_SUPPORT
/*
* Don't look for tab or newline in the middle
* of a multibyte character. Otherwise, we are
* relying on the character set being an extension
* of ASCII so it's safe to test a single byte.
*/
if (!multi) {
#endif
if (*str == '\t') {
w = (w | 7) + 1;
continue;
} else if (*str == '\n') {
w = 0;
h++;
continue;
}
#ifdef MULTIBYTE_SUPPORT
}
inchar = *str;
#endif
}
#ifdef MULTIBYTE_SUPPORT
switch (mbrtowc(&wc, &inchar, 1, &mbs)) {
case MB_INCOMPLETE:
/* Character is incomplete -- keep looking. */
multi = 1;
break;
case MB_INVALID:
memset(&mbs, 0, sizeof mbs);
/* Invalid character: assume single width. */
multi = 0;
w++;
break;
case 0:
multi = 0;
break;
default:
/*
* If the character isn't printable, WCWIDTH() returns
* -1. We assume width 1.
*/
wcw = WCWIDTH(wc);
if (wcw >= 0)
w += wcw;
else
w++;
multi = 0;
break;
}
#else
w++;
#endif
}
}
/*
* multi may still be set if we were in the middle of the character.
* This isn't easy to handle generally; just assume there's no
* output.
*/
if(w >= zterm_columns && overf >= 0) {
if (!overf || w > zterm_columns) {
w = 0;
h++;
}
}
if(wp)
*wp = w;
if(hp)
*hp = h;
}
/**/
static int
prompttrunc(int arg, int truncchar, int doprint, int endchar,
unsigned int *txtchangep)
{
if (arg > 0) {
char ch = *bv->fm, *ptr, *truncstr;
int truncatleft = ch == '<';
int w = bv->bp - bv->buf;
/*
* If there is already a truncation active, return so that
* can be finished, backing up so that the new truncation
* can be started afterwards.
*/
if (bv->truncwidth) {
while (*--bv->fm != '%')
;
bv->fm--;
return 0;
}
bv->truncwidth = arg;
if (*bv->fm != ']')
bv->fm++;
while (*bv->fm && *bv->fm != truncchar) {
if (*bv->fm == '\\' && bv->fm[1])
++bv->fm;
addbufspc(1);
*bv->bp++ = *bv->fm++;
}
if (!*bv->fm)
return 0;
if (bv->bp - bv->buf == w && truncchar == ']') {
addbufspc(1);
*bv->bp++ = '<';
}
ptr = bv->buf + w; /* addbv->bufspc() may have realloc()'d bv->buf */
/*
* Now:
* bv->buf is the start of the output prompt buffer
* ptr is the start of the truncation string
* bv->bp is the end of the truncation string
*/
truncstr = ztrduppfx(ptr, bv->bp - ptr);
bv->bp = ptr;
w = bv->bp - bv->buf;
bv->fm++;
bv->trunccount = bv->dontcount;
putpromptchar(doprint, endchar, txtchangep);
bv->trunccount = 0;
ptr = bv->buf + w; /* putpromptchar() may have realloc()'d */
*bv->bp = '\0';
/*
* Now:
* ptr is the start of the truncation string and also
* where we need to start putting any truncated output
* bv->bp is the end of the string we have just added, which
* may need truncating.
*/
/*
* w below is screen width if multibyte support is enabled
* (note that above it was a raw string pointer difference).
* It's the full width of the string we may need to truncate.
*
* bv->truncwidth has come from the user, so we interpret this
* as a screen width, too.
*/
countprompt(ptr, &w, 0, -1);
if (w > bv->truncwidth) {
/*
* We need to truncate. t points to the truncation string
* -- which is inserted literally, without nice
* representation. twidth is its printing width, and maxwidth
* is the amount of the main string that we want to keep.
* Note that if the truncation string is longer than the
* truncation length (twidth > bv->truncwidth), the truncation
* string is used in full.
*/
char *t = truncstr;
int fullen = bv->bp - ptr;
int twidth, maxwidth;
int ntrunc = strlen(t);
twidth = MB_METASTRWIDTH(t);
if (twidth < bv->truncwidth) {
maxwidth = bv->truncwidth - twidth;
/*
* It's not safe to assume there are no invisible substrings
* just because the width is less than the full string
* length since there may be multibyte characters.
*/
addbufspc(ntrunc+1);
/* may have realloc'd */
ptr = bv->bp - fullen;
if (truncatleft) {
/*
* To truncate at the left, selectively copy
* maxwidth bytes from the main prompt, preceded
* by the truncation string in full.
*
* We're overwriting the string containing the
* text to be truncated, so copy it. We've
* just ensured there's sufficient space at the
* end of the prompt string.
*
* Pointer into text to be truncated.
*/
char *fulltextptr, *fulltext;
int remw;
#ifdef MULTIBYTE_SUPPORT
mbstate_t mbs;
memset(&mbs, 0, sizeof mbs);
#endif
fulltextptr = fulltext = ptr + ntrunc;
memmove(fulltext, ptr, fullen);
fulltext[fullen] = '\0';
/* Copy the truncstr into place. */
while (*t)
*ptr++ = *t++;
/*
* Find the point in the text at which we should
* start copying, i.e. when the remaining width
* is less than or equal to the maximum width.
*/
remw = w;
while (remw > maxwidth && *fulltextptr) {
if (*fulltextptr == Inpar) {
/*
* Text marked as invisible: copy
* regardless, since we don't know what
* this does. It only affects the width
* if there are Nularg's present.
* However, even in that case we
* can't break the sequence down, so
* we still loop over the entire group.
*/
for (;;) {
*ptr++ = *fulltextptr;
if (*fulltextptr == Outpar ||
*fulltextptr == '\0')
break;
if (*fulltextptr == Nularg)
remw--;
fulltextptr++;
}
} else {
#ifdef MULTIBYTE_SUPPORT
/*
* Normal text: build up a multibyte character.
*/
char inchar;
wchar_t cc;
int wcw;
/*
* careful: string is still metafied (we
* need that because we don't know a
* priori when to stop and the resulting
* string must be metafied).
*/
if (*fulltextptr == Meta)
inchar = *++fulltextptr ^ 32;
else
inchar = *fulltextptr;
fulltextptr++;
switch (mbrtowc(&cc, &inchar, 1, &mbs)) {
case MB_INCOMPLETE:
/* Incomplete multibyte character. */
break;
case MB_INVALID:
/* Reset invalid state. */
memset(&mbs, 0, sizeof mbs);
/* FALL THROUGH */
case 0:
/* Assume a single-byte character. */
remw--;
break;
default:
wcw = WCWIDTH(cc);
if (wcw >= 0)
remw -= wcw;
else
remw--;
break;
}
#else
/* Single byte character */
if (*fulltextptr == Meta)
fulltextptr++;
fulltextptr++;
remw--;
#endif
}
}
/*
* Now simply copy the rest of the text. Still
* metafied, so this is easy.
*/
while (*fulltextptr)
*ptr++ = *fulltextptr++;
/* Mark the end of copying */
bv->bp = ptr;
} else {
/*
* Truncating at the right is easier: just leave
* enough characters until we have reached the
* maximum width.
*/
char *skiptext = ptr;
#ifdef MULTIBYTE_SUPPORT
mbstate_t mbs;
memset(&mbs, 0, sizeof mbs);
#endif
while (maxwidth > 0 && *skiptext) {
if (*skiptext == Inpar) {
/* see comment on left truncation above */
for (;;) {
if (*skiptext == Outpar ||
*skiptext == '\0')
break;
if (*skiptext == Nularg)
maxwidth--;
skiptext++;
}
} else {
#ifdef MULTIBYTE_SUPPORT
char inchar;
wchar_t cc;
int wcw;
if (*skiptext == Meta)
inchar = *++skiptext ^ 32;
else
inchar = *skiptext;
skiptext++;
switch (mbrtowc(&cc, &inchar, 1, &mbs)) {
case MB_INCOMPLETE:
/* Incomplete character. */
break;
case MB_INVALID:
/* Reset invalid state. */
memset(&mbs, 0, sizeof mbs);
/* FALL THROUGH */
case 0:
/* Assume a single-byte character. */
maxwidth--;
break;
default:
wcw = WCWIDTH(cc);
if (wcw >= 0)
maxwidth -= wcw;
else
maxwidth--;
break;
}
#else
if (*skiptext == Meta)
skiptext++;
skiptext++;
maxwidth--;
#endif
}
}
/*
* We don't need the visible text from now on,
* but we'd better copy any invisible bits.
* History dictates that these go after the
* truncation string. This is sensible since
* they may, for example, turn off an effect which
* should apply to all text at this point.
*
* Copy the truncstr.
*/
ptr = skiptext;
while (*t)
*ptr++ = *t++;
bv->bp = ptr;
if (*skiptext) {
/* Move remaining text so we don't overwrite it */
memmove(bv->bp, skiptext, strlen(skiptext)+1);
skiptext = bv->bp;
/*
* Copy anything we want, updating bv->bp
*/
while (*skiptext) {
if (*skiptext == Inpar) {
for (;;) {
*bv->bp++ = *skiptext;
if (*skiptext == Outpar ||
*skiptext == '\0')
break;
skiptext++;
}
}
else
skiptext++;
}
}
}
} else {
/* Just copy truncstr; no other text appears. */
while (*t)
*ptr++ = *t++;
bv->bp = ptr;
}
*bv->bp = '\0';
}
zsfree(truncstr);
bv->truncwidth = 0;
/*
* We may have returned early from the previous putpromptchar *
* because we found another truncation following this one. *
* In that case we need to do the rest now. *
*/
if (!*bv->fm)
return 0;
if (*bv->fm != endchar) {
bv->fm++;
/*
* With bv->truncwidth set to zero, we always reach endchar *
* (or the terminating NULL) this time round. *
*/
if (!putpromptchar(doprint, endchar, txtchangep))
return 0;
}
/* Now we have to trick it into matching endchar again */
bv->fm--;
} else {
if (*bv->fm != ']')
bv->fm++;
while(*bv->fm && *bv->fm != truncchar) {
if (*bv->fm == '\\' && bv->fm[1])
bv->fm++;
bv->fm++;
}
if (bv->truncwidth || !*bv->fm)
return 0;
}
return 1;
}
/**/
void
cmdpush(int cmdtok)
{
if (cmdsp >= 0 && cmdsp < CMDSTACKSZ)
cmdstack[cmdsp++] = (unsigned char)cmdtok;
}
/**/
void
cmdpop(void)
{
if (cmdsp <= 0) {
DPUTS(1, "BUG: cmdstack empty");
fflush(stderr);
} else
cmdsp--;
}
/*****************************************************************************
* Utilities dealing with colour and other forms of highlighting.
*
* These are shared by prompts and by zle, so it's easiest to have them
* in the main shell.
*****************************************************************************/
/* Defines standard ANSI colour names in index order */
static const char *ansi_colours[] = {
"black", "red", "green", "yellow", "blue", "magenta", "cyan", "white",
"default", NULL
};
/* Defines the available types of highlighting */
struct highlight {
const char *name;
int mask_on;
int mask_off;
};
static const struct highlight highlights[] = {
{ "none", 0, TXT_ATTR_ON_MASK },
{ "bold", TXTBOLDFACE, 0 },
{ "standout", TXTSTANDOUT, 0 },
{ "underline", TXTUNDERLINE, 0 },
{ NULL, 0, 0 }
};
/*
* Return index of ANSI colour for which *teststrp is an abbreviation.
* Any non-alphabetic character ends the abbreviation.
* 8 is the special value for default (note this is *not* the
* right sequence for default which is typically 9).
* -1 is failure.
*/
static int
match_named_colour(const char **teststrp)
{
const char *teststr = *teststrp, *end, **cptr;
int len;
for (end = teststr; ialpha(*end); end++)
;
len = end - teststr;
*teststrp = end;
for (cptr = ansi_colours; *cptr; cptr++) {
if (!strncmp(teststr, *cptr, len))
return cptr - ansi_colours;
}
return -1;
}
/*
* Match just the colour part of a highlight specification.
* If teststrp is NULL, use the already parsed numeric colour.
* Return the attributes to set in the attribute variable.
* Return -1 for out of range. Does not check the character
* following the colour specification.
*/
/**/
mod_export int
match_colour(const char **teststrp, int is_fg, int colour)
{
int shft, on, named = 0, tc;
if (teststrp) {
if ((named = ialpha(**teststrp))) {
colour = match_named_colour(teststrp);
if (colour == 8) {
/* default */
return is_fg ? TXTNOFGCOLOUR : TXTNOBGCOLOUR;
}
}
else
colour = (int)zstrtol(*teststrp, (char **)teststrp, 10);
}
if (colour < 0 || colour >= 256)
return -1;
if (is_fg) {
shft = TXT_ATTR_FG_COL_SHIFT;
on = TXTFGCOLOUR;
tc = TCFGCOLOUR;
} else {
shft = TXT_ATTR_BG_COL_SHIFT;
on = TXTBGCOLOUR;
tc = TCBGCOLOUR;
}
/*
* Try termcap for numbered characters if posible.
* Don't for named characters, since our best bet
* of getting the names right is with ANSI sequences.
*/
if (!named && tccan(tc)) {
if (tccolours >= 0 && colour >= tccolours) {
/*
* Out of range of termcap colours.
* Can we assume ANSI colours work?
*/
if (colour > 7)
return -1; /* No. */
} else {
/*
* We can handle termcap colours and the number
* is in range, so use termcap.
*/
on |= is_fg ? TXT_ATTR_FG_TERMCAP :
TXT_ATTR_BG_TERMCAP;
}
}
return on | (colour << shft);
}
/*
* Match a set of highlights in the given teststr.
* Set *on_var to reflect the values found.
*/
/**/
mod_export void
match_highlight(const char *teststr, int *on_var)
{
int found = 1;
*on_var = 0;
while (found && *teststr) {
const struct highlight *hl;
found = 0;
if (strpfx("fg=", teststr) || strpfx("bg=", teststr)) {
int is_fg = (teststr[0] == 'f'), atr;
teststr += 3;
atr = match_colour(&teststr, is_fg, 0);
if (*teststr == ',')
teststr++;
else if (*teststr)
break;
found = 1;
/* skip out of range colours but keep scanning attributes */
if (atr >= 0)
*on_var |= atr;
} else {
for (hl = highlights; hl->name; hl++) {
if (strpfx(hl->name, teststr)) {
const char *val = teststr + strlen(hl->name);
if (*val == ',')
val++;
else if (*val)
break;
*on_var |= hl->mask_on;
*on_var &= ~hl->mask_off;
teststr = val;
found = 1;
}
}
}
}
}
/*
* Count or output a string for colour information: used
* by output_highlight().
*/
static int
output_colour(int colour, int fg_bg, int use_tc, char *buf)
{
int atrlen = 3, len;
char *ptr = buf;
if (buf) {
strcpy(ptr, fg_bg == COL_SEQ_FG ? "fg=" : "bg=");
ptr += 3;
}
/* colour should only be > 7 if using termcap but let's be safe */
if (use_tc || colour > 7) {
char digbuf[DIGBUFSIZE];
sprintf(digbuf, "%d", colour);
len = strlen(digbuf);
atrlen += len;
if (buf)
strcpy(ptr, digbuf);
} else {
len = strlen(ansi_colours[colour]);
atrlen += len;
if (buf)
strcpy(ptr, ansi_colours[colour]);
}
return atrlen;
}
/*
* Count the length needed for outputting highlighting information
* as a string based on the bits for the attributes.
*
* If buf is not NULL, output the strings into the buffer, too.
* As conventional with strings, the allocated length should be
* at least the returned value plus 1 for the NUL byte.
*/
/**/
mod_export int
output_highlight(int atr, char *buf)
{
const struct highlight *hp;
int atrlen = 0, len;
char *ptr = buf;
if (atr & TXTFGCOLOUR) {
len = output_colour(txtchangeget(atr, TXT_ATTR_FG_COL),
COL_SEQ_FG,
(atr & TXT_ATTR_FG_TERMCAP),
ptr);
atrlen += len;
if (buf)
ptr += len;
}
if (atr & TXTBGCOLOUR) {
if (atrlen) {
atrlen++;
if (buf) {
strcpy(ptr, ",");
ptr++;
}
}
len = output_colour(txtchangeget(atr, TXT_ATTR_BG_COL),
COL_SEQ_BG,
(atr & TXT_ATTR_BG_TERMCAP),
ptr);
atrlen += len;
if (buf)
ptr += len;
}
for (hp = highlights; hp->name; hp++) {
if (hp->mask_on & atr) {
if (atrlen) {
atrlen++;
if (buf) {
strcpy(ptr, ",");
ptr++;
}
}
len = strlen(hp->name);
atrlen += len;
if (buf) {
strcpy(ptr, hp->name);
ptr += len;
}
}
}
if (atrlen == 0) {
if (buf)
strcpy(ptr, "none");
return 4;
}
return atrlen;
}
/* Structure and array for holding special colour terminal sequences */
/* Start of escape sequence for foreground colour */
#define TC_COL_FG_START "\033[3"
/* End of escape sequence for foreground colour */
#define TC_COL_FG_END "m"
/* Code to reset foreground colour */
#define TC_COL_FG_DEFAULT "9"
/* Start of escape sequence for background colour */
#define TC_COL_BG_START "\033[4"
/* End of escape sequence for background colour */
#define TC_COL_BG_END "m"
/* Code to reset background colour */
#define TC_COL_BG_DEFAULT "9"
struct colour_sequences {
char *start; /* Escape sequence start */
char *end; /* Escape sequence terminator */
char *def; /* Code to reset default colour */
};
struct colour_sequences fg_bg_sequences[2];
/*
* We need a buffer for colour sequence composition. It may
* vary depending on the sequences set. However, it's inefficient
* allocating it separately every time we send a colour sequence,
* so do it once per refresh.
*/
static char *colseq_buf;
/*
* Count how often this has been allocated, for recursive usage.
*/
static int colseq_buf_allocs;
/**/
void
set_default_colour_sequences(void)
{
fg_bg_sequences[COL_SEQ_FG].start = ztrdup(TC_COL_FG_START);
fg_bg_sequences[COL_SEQ_FG].end = ztrdup(TC_COL_FG_END);
fg_bg_sequences[COL_SEQ_FG].def = ztrdup(TC_COL_FG_DEFAULT);
fg_bg_sequences[COL_SEQ_BG].start = ztrdup(TC_COL_BG_START);
fg_bg_sequences[COL_SEQ_BG].end = ztrdup(TC_COL_BG_END);
fg_bg_sequences[COL_SEQ_BG].def = ztrdup(TC_COL_BG_DEFAULT);
}
static void
set_colour_code(char *str, char **var)
{
char *keyseq;
int len;
zsfree(*var);
keyseq = getkeystring(str, &len, GETKEYS_BINDKEY, NULL);
*var = metafy(keyseq, len, META_DUP);
}
/* Allocate buffer for colour code composition */
/**/
mod_export void
allocate_colour_buffer(void)
{
char **atrs;
int lenfg, lenbg, len;
if (colseq_buf_allocs++)
return;
atrs = getaparam("zle_highlight");
if (atrs) {
for (; *atrs; atrs++) {
if (strpfx("fg_start_code:", *atrs)) {
set_colour_code(*atrs + 14, &fg_bg_sequences[COL_SEQ_FG].start);
} else if (strpfx("fg_default_code:", *atrs)) {
set_colour_code(*atrs + 16, &fg_bg_sequences[COL_SEQ_FG].def);
} else if (strpfx("fg_end_code:", *atrs)) {
set_colour_code(*atrs + 12, &fg_bg_sequences[COL_SEQ_FG].end);
} else if (strpfx("bg_start_code:", *atrs)) {
set_colour_code(*atrs + 14, &fg_bg_sequences[COL_SEQ_BG].start);
} else if (strpfx("bg_default_code:", *atrs)) {
set_colour_code(*atrs + 16, &fg_bg_sequences[COL_SEQ_BG].def);
} else if (strpfx("bg_end_code:", *atrs)) {
set_colour_code(*atrs + 12, &fg_bg_sequences[COL_SEQ_BG].end);
}
}
}
lenfg = strlen(fg_bg_sequences[COL_SEQ_FG].def);
/* always need 1 character for non-default code */
if (lenfg < 1)
lenfg = 1;
lenfg += strlen(fg_bg_sequences[COL_SEQ_FG].start) +
strlen(fg_bg_sequences[COL_SEQ_FG].end);
lenbg = strlen(fg_bg_sequences[COL_SEQ_BG].def);
/* always need 1 character for non-default code */
if (lenbg < 1)
lenbg = 1;
lenbg += strlen(fg_bg_sequences[COL_SEQ_BG].start) +
strlen(fg_bg_sequences[COL_SEQ_BG].end);
len = lenfg > lenbg ? lenfg : lenbg;
colseq_buf = (char *)zalloc(len+1);
}
/* Free the colour buffer previously allocated. */
/**/
mod_export void
free_colour_buffer(void)
{
if (--colseq_buf_allocs)
return;
DPUTS(!colseq_buf, "Freeing colour sequence buffer without alloc");
/* Free buffer for colour code composition */
free(colseq_buf);
colseq_buf = NULL;
}
/*
* Handle outputting of a colour for prompts or zle.
* colour is the numeric colour, 0 to 255 (or less if termcap
* says fewer are supported).
* fg_bg indicates if we're changing the foreground or background.
* tc indicates the termcap code to use, if appropriate.
* def indicates if we're resetting the default colour.
* use_termcap indicates if we should use termcap to output colours.
* flags is either 0 or TSC_PROMPT.
*/
/**/
mod_export void
set_colour_attribute(int atr, int fg_bg, int flags)
{
char *ptr;
int do_free, is_prompt = (flags & TSC_PROMPT) ? 1 : 0;
int colour, tc, def, use_termcap;
if (fg_bg == COL_SEQ_FG) {
colour = txtchangeget(atr, TXT_ATTR_FG_COL);
tc = TCFGCOLOUR;
def = txtchangeisset(atr, TXTNOFGCOLOUR);
use_termcap = txtchangeisset(atr, TXT_ATTR_FG_TERMCAP);
} else {
colour = txtchangeget(atr, TXT_ATTR_BG_COL);
tc = TCBGCOLOUR;
def = txtchangeisset(atr, TXTNOBGCOLOUR);
use_termcap = txtchangeisset(atr, TXT_ATTR_BG_TERMCAP);
}
/*
* If we're not restoring the default, and either have a
* colour value that is too large for ANSI, or have been told
* to use the termcap sequence, try to use the termcap sequence.
*
* We have already sanitised the values we allow from the
* highlighting variables, so much of this shouldn't be
* necessary at this point, but we might as well be safe.
*/
if (!def && (colour > 7 || use_termcap)) {
/*
* We can if it's available, and either we couldn't get
* the maximum number of colours, or the colour is in range.
*/
if (tccan(tc) && (tccolours < 0 || colour < tccolours))
{
if (is_prompt)
{
if (!bv->dontcount) {
addbufspc(1);
*bv->bp++ = Inpar;
}
tputs(tgoto(tcstr[tc], colour, colour), 1, putstr);
if (!bv->dontcount) {
addbufspc(1);
*bv->bp++ = Outpar;
}
} else {
tputs(tgoto(tcstr[tc], colour, colour), 1, putshout);
}
/* That worked. */
return;
}
/*
* Nope, that didn't work.
* If 0 to 7, assume standard ANSI works, otherwise it won't.
*/
if (colour > 7)
return;
}
if ((do_free = (colseq_buf == NULL))) {
/* This can happen when moving the cursor in trashzle() */
allocate_colour_buffer();
}
strcpy(colseq_buf, fg_bg_sequences[fg_bg].start);
ptr = colseq_buf + strlen(colseq_buf);
if (def) {
strcpy(ptr, fg_bg_sequences[fg_bg].def);
while (*ptr)
ptr++;
} else
*ptr++ = colour + '0';
strcpy(ptr, fg_bg_sequences[fg_bg].end);
if (is_prompt) {
if (!bv->dontcount) {
addbufspc(1);
*bv->bp++ = Inpar;
}
tputs(colseq_buf, 1, putstr);
if (!bv->dontcount) {
addbufspc(1);
*bv->bp++ = Outpar;
}
} else
tputs(colseq_buf, 1, putshout);
if (do_free)
free_colour_buffer();
}
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