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zsh/Src/text.c

1083 lines
22 KiB
C

/*
* text.c - textual representations of syntax trees
*
* 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 "text.pro"
/*
* If non-zero, expand syntactically significant leading tabs in text
* to this number of spaces.
*
* If negative, don't output leading whitespace at all.
*/
/**/
int text_expand_tabs;
static char *tptr, *tbuf, *tlim, *tpending;
static int tsiz, tindent, tnewlins, tjob;
static void
dec_tindent(void)
{
DPUTS(tindent == 0, "attempting to decrement tindent below zero");
if (tindent > 0)
tindent--;
}
/*
* Add a pair of pending strings and a newline.
* This is used for here documents. It will be output when
* we have a lexically significant newline.
*
* This isn't that common and a multiple use on the same line is *very*
* uncommon; we don't try to optimise it.
*
* This is not used for job text; there we bear the inaccuracy
* of turning this into a here-string.
*/
static void
taddpending(char *str1, char *str2)
{
int len = strlen(str1) + strlen(str2) + 1;
/*
* We don't strip newlines from here-documents converted
* to here-strings, so no munging is required except to
* add a newline after the here-document terminator.
* However, because the job text doesn't automatically
* have a newline right at the end, we handle that
* specially.
*/
if (tpending) {
int oldlen = strlen(tpending);
tpending = zrealloc(tpending, len + oldlen + 1);
sprintf(tpending + oldlen, "\n%s%s", str1, str2);
} else {
tpending = (char *)zalloc(len);
sprintf(tpending, "%s%s", str1, str2);
}
}
/* Output the pending string where appropriate */
static void
tdopending(void)
{
if (tpending) {
taddchr('\n');
taddstr(tpending);
zsfree(tpending);
tpending = NULL;
}
}
/* add a character to the text buffer */
/**/
static void
taddchr(int c)
{
*tptr++ = c;
if (tptr == tlim) {
if (!tbuf) {
tptr--;
return;
}
tbuf = zrealloc(tbuf, tsiz *= 2);
tlim = tbuf + tsiz;
tptr = tbuf + tsiz / 2;
}
}
/* add a string to the text buffer */
/**/
static void
taddstr(char *s)
{
int sl = strlen(s);
char c;
while (tptr + sl >= tlim) {
int x = tptr - tbuf;
if (!tbuf)
return;
tbuf = zrealloc(tbuf, tsiz *= 2);
tlim = tbuf + tsiz;
tptr = tbuf + x;
}
if (tnewlins) {
memcpy(tptr, s, sl);
tptr += sl;
} else
while ((c = *s++))
*tptr++ = (c == '\n' ? ' ' : c);
}
/**/
static void
taddlist(Estate state, int num)
{
if (num) {
while (num--) {
taddstr(ecgetstr(state, EC_NODUP, NULL));
taddchr(' ');
}
tptr--;
}
}
/* add an assignment */
static void
taddassign(wordcode code, Estate state, int typeset)
{
/* name */
taddstr(ecgetstr(state, EC_NODUP, NULL));
/* value... maybe */
if (WC_ASSIGN_TYPE2(code) == WC_ASSIGN_INC) {
if (typeset) {
/* dummy assignment --- just var name */
(void)ecgetstr(state, EC_NODUP, NULL);
taddchr(' ');
return;
}
taddchr('+');
}
taddchr('=');
if (WC_ASSIGN_TYPE(code) == WC_ASSIGN_ARRAY) {
taddchr('(');
taddlist(state, WC_ASSIGN_NUM(code));
taddstr(") ");
} else {
taddstr(ecgetstr(state, EC_NODUP, NULL));
taddchr(' ');
}
}
/* add a number of assignments from typeset */
/**/
static void
taddassignlist(Estate state, wordcode count)
{
if (count)
taddchr(' ');
while (count--) {
wordcode code = *state->pc++;
taddassign(code, state, 1);
}
}
/* add a newline, or something equivalent, to the text buffer */
/**/
static void
taddnl(int no_semicolon)
{
int t0;
if (tnewlins) {
tdopending();
taddchr('\n');
for (t0 = 0; t0 != tindent; t0++) {
if (text_expand_tabs >= 0) {
if (text_expand_tabs) {
int t1;
for (t1 = 0; t1 < text_expand_tabs; t1++)
taddchr(' ');
} else
taddchr('\t');
}
}
} else if (no_semicolon) {
taddstr(" ");
} else {
taddstr("; ");
}
}
/*
* Output a tab that may be expanded as part of a leading set.
* Note this is not part of the text framework; it's for
* code that needs to output its own tabs that are to be
* consistent with those from getpermtext().
*
* Note these tabs are only expected to be useful at the
* start of the line, so we make no attempt to count columns.
*/
/**/
void
zoutputtab(FILE *outf)
{
if (text_expand_tabs < 0)
return;
if (text_expand_tabs) {
int i;
for (i = 0; i < text_expand_tabs; i++)
fputc(' ', outf);
} else
fputc('\t', outf);
}
/* get a permanent textual representation of n */
/**/
mod_export char *
getpermtext(Eprog prog, Wordcode c, int start_indent)
{
struct estate s;
queue_signals();
if (!c)
c = prog->prog;
useeprog(prog); /* mark as used */
s.prog = prog;
s.pc = c;
s.strs = prog->strs;
tindent = start_indent;
tnewlins = 1;
tbuf = (char *)zalloc(tsiz = 32);
tptr = tbuf;
tlim = tbuf + tsiz;
tjob = 0;
if (prog->len)
gettext2(&s);
*tptr = '\0';
freeeprog(prog); /* mark as unused */
untokenize(tbuf);
unqueue_signals();
return tbuf;
}
/* get a representation of n in a job text buffer */
/**/
char *
getjobtext(Eprog prog, Wordcode c)
{
static char jbuf[JOBTEXTSIZE];
struct estate s;
queue_signals();
if (!c)
c = prog->prog;
useeprog(prog); /* mark as used */
s.prog = prog;
s.pc = c;
s.strs = prog->strs;
tindent = 0;
tnewlins = 0;
tbuf = NULL;
tptr = jbuf;
tlim = tptr + JOBTEXTSIZE - 1;
tjob = 1;
gettext2(&s);
*tptr = '\0';
freeeprog(prog); /* mark as unused */
untokenize(jbuf);
unqueue_signals();
return jbuf;
}
/*
* gettext2() shows one way to walk through the word code without
* recursion. We start by reading a word code and executing the
* action for it. Some codes have sub-structures (like, e.g. WC_FOR)
* and require something to be done after the sub-structure has been
* handled. For these codes a tstack structure which describes what
* has to be done is pushed onto a stack. Codes without sub-structures
* arrange for the next structure being taken from the stack so that
* the action for it is executed instead of the one for the next
* word code. If the stack is empty at this point, we have handled
* the whole structure we were called for.
*/
typedef struct tstack *Tstack;
struct tstack {
Tstack prev;
wordcode code;
int pop;
union {
struct {
LinkList list;
} _redir;
struct {
char *strs;
Wordcode end;
int nargs;
} _funcdef;
struct {
Wordcode end;
} _case;
struct {
int cond;
Wordcode end;
} _if;
struct {
int par;
} _cond;
struct {
Wordcode end;
} _subsh;
} u;
};
static Tstack tstack, tfree;
static Tstack
tpush(wordcode code, int pop)
{
Tstack s;
if ((s = tfree))
tfree = s->prev;
else
s = (Tstack) zalloc(sizeof(*s));
s->prev = tstack;
tstack = s;
s->code = code;
s->pop = pop;
return s;
}
/**/
static void
gettext2(Estate state)
{
Tstack s, n;
int stack = 0;
wordcode code;
while (1) {
if (stack) {
if (!(s = tstack))
break;
if (s->pop) {
tstack = s->prev;
s->prev = tfree;
tfree = s;
}
code = s->code;
stack = 0;
} else {
s = NULL;
code = *state->pc++;
}
switch (wc_code(code)) {
case WC_LIST:
if (!s) {
s = tpush(code, (WC_LIST_TYPE(code) & Z_END));
stack = 0;
} else {
if (WC_LIST_TYPE(code) & Z_ASYNC) {
taddstr(" &");
if (WC_LIST_TYPE(code) & Z_DISOWN)
taddstr("|");
}
if (!(stack = (WC_LIST_TYPE(code) & Z_END))) {
if (tnewlins)
taddnl(0);
else
taddstr((WC_LIST_TYPE(code) & Z_ASYNC) ? " " : "; ");
s->code = *state->pc++;
s->pop = (WC_LIST_TYPE(s->code) & Z_END);
}
}
if (!stack && (WC_LIST_TYPE(s->code) & Z_SIMPLE))
state->pc++;
break;
case WC_SUBLIST:
if (!s) {
if (!(WC_SUBLIST_FLAGS(code) & WC_SUBLIST_SIMPLE) &&
wc_code(*state->pc) != WC_PIPE)
stack = -1;
if (WC_SUBLIST_FLAGS(code) & WC_SUBLIST_NOT)
taddstr(stack ? "!" : "! ");
if (WC_SUBLIST_FLAGS(code) & WC_SUBLIST_COPROC)
taddstr(stack ? "coproc" : "coproc ");
s = tpush(code, (WC_SUBLIST_TYPE(code) == WC_SUBLIST_END));
} else {
if (!(stack = (WC_SUBLIST_TYPE(code) == WC_SUBLIST_END))) {
taddstr((WC_SUBLIST_TYPE(code) == WC_SUBLIST_OR) ?
" || " : " && ");
s->code = *state->pc++;
s->pop = (WC_SUBLIST_TYPE(s->code) == WC_SUBLIST_END);
if (WC_SUBLIST_FLAGS(s->code) & WC_SUBLIST_NOT)
taddstr("! ");
if (WC_SUBLIST_FLAGS(s->code) & WC_SUBLIST_COPROC)
taddstr("coproc ");
}
}
if (stack < 1 && (WC_SUBLIST_FLAGS(s->code) & WC_SUBLIST_SIMPLE))
state->pc++;
break;
case WC_PIPE:
if (!s) {
tpush(code, (WC_PIPE_TYPE(code) == WC_PIPE_END));
if (WC_PIPE_TYPE(code) == WC_PIPE_MID)
state->pc++;
} else {
if (!(stack = (WC_PIPE_TYPE(code) == WC_PIPE_END))) {
taddstr(" | ");
s->code = *state->pc++;
if (!(s->pop = (WC_PIPE_TYPE(s->code) == WC_PIPE_END)))
state->pc++;
}
}
break;
case WC_REDIR:
if (!s) {
state->pc--;
n = tpush(code, 1);
n->u._redir.list = ecgetredirs(state);
} else {
getredirs(s->u._redir.list);
stack = 1;
}
break;
case WC_ASSIGN:
taddassign(code, state, 0);
break;
case WC_SIMPLE:
taddlist(state, WC_SIMPLE_ARGC(code));
stack = 1;
break;
case WC_TYPESET:
taddlist(state, WC_TYPESET_ARGC(code));
taddassignlist(state, *state->pc++);
stack = 1;
break;
case WC_SUBSH:
if (!s) {
taddstr("(");
tindent++;
taddnl(1);
n = tpush(code, 1);
n->u._subsh.end = state->pc + WC_SUBSH_SKIP(code);
/* skip word only use for try/always */
state->pc++;
} else {
state->pc = s->u._subsh.end;
dec_tindent();
/* semicolon is optional here but more standard */
taddnl(0);
taddstr(")");
stack = 1;
}
break;
case WC_CURSH:
if (!s) {
taddstr("{");
tindent++;
taddnl(1);
n = tpush(code, 1);
n->u._subsh.end = state->pc + WC_CURSH_SKIP(code);
/* skip word only use for try/always */
state->pc++;
} else {
state->pc = s->u._subsh.end;
dec_tindent();
/* semicolon is optional here but more standard */
taddnl(0);
taddstr("}");
stack = 1;
}
break;
case WC_TIMED:
if (!s) {
taddstr("time");
if (WC_TIMED_TYPE(code) == WC_TIMED_PIPE) {
taddchr(' ');
tindent++;
tpush(code, 1);
} else
stack = 1;
} else {
dec_tindent();
stack = 1;
}
break;
case WC_FUNCDEF:
if (!s) {
Wordcode p = state->pc;
Wordcode end = p + WC_FUNCDEF_SKIP(code);
int nargs = *state->pc++;
taddlist(state, nargs);
if (nargs)
taddstr(" ");
if (tjob) {
taddstr("() { ... }");
state->pc = end;
if (!nargs) {
/*
* Unnamed fucntion.
* We're not going to pull any arguments off
* later, so skip them now...
*/
state->pc += *end;
}
stack = 1;
} else {
taddstr("() {");
tindent++;
taddnl(1);
n = tpush(code, 1);
n->u._funcdef.strs = state->strs;
n->u._funcdef.end = end;
n->u._funcdef.nargs = nargs;
state->strs += *state->pc;
state->pc += 3;
}
} else {
state->strs = s->u._funcdef.strs;
state->pc = s->u._funcdef.end;
dec_tindent();
taddnl(0);
taddstr("}");
if (s->u._funcdef.nargs == 0) {
/* Unnamed function with post-arguments */
int nargs;
s->u._funcdef.end += *state->pc++;
nargs = *state->pc++;
if (nargs) {
taddstr(" ");
taddlist(state, nargs);
}
state->pc = s->u._funcdef.end;
}
stack = 1;
}
break;
case WC_FOR:
if (!s) {
taddstr("for ");
if (WC_FOR_TYPE(code) == WC_FOR_COND) {
taddstr("((");
taddstr(ecgetstr(state, EC_NODUP, NULL));
taddstr("; ");
taddstr(ecgetstr(state, EC_NODUP, NULL));
taddstr("; ");
taddstr(ecgetstr(state, EC_NODUP, NULL));
taddstr(")) do");
} else {
taddlist(state, *state->pc++);
if (WC_FOR_TYPE(code) == WC_FOR_LIST) {
taddstr(" in ");
taddlist(state, *state->pc++);
}
taddnl(0);
taddstr("do");
}
tindent++;
taddnl(0);
tpush(code, 1);
} else {
dec_tindent();
taddnl(0);
taddstr("done");
stack = 1;
}
break;
case WC_SELECT:
if (!s) {
taddstr("select ");
taddstr(ecgetstr(state, EC_NODUP, NULL));
if (WC_SELECT_TYPE(code) == WC_SELECT_LIST) {
taddstr(" in ");
taddlist(state, *state->pc++);
}
tindent++;
taddnl(0);
tpush(code, 1);
} else {
dec_tindent();
taddnl(0);
taddstr("done");
stack = 1;
}
break;
case WC_WHILE:
if (!s) {
taddstr(WC_WHILE_TYPE(code) == WC_WHILE_UNTIL ?
"until " : "while ");
tindent++;
tpush(code, 0);
} else if (!s->pop) {
dec_tindent();
taddnl(0);
taddstr("do");
tindent++;
taddnl(0);
s->pop = 1;
} else {
dec_tindent();
taddnl(0);
taddstr("done");
stack = 1;
}
break;
case WC_REPEAT:
if (!s) {
taddstr("repeat ");
taddstr(ecgetstr(state, EC_NODUP, NULL));
taddnl(0);
taddstr("do");
tindent++;
taddnl(0);
tpush(code, 1);
} else {
dec_tindent();
taddnl(0);
taddstr("done");
stack = 1;
}
break;
case WC_CASE:
if (!s) {
Wordcode end = state->pc + WC_CASE_SKIP(code);
wordcode ialts;
taddstr("case ");
taddstr(ecgetstr(state, EC_NODUP, NULL));
taddstr(" in");
if (state->pc >= end) {
if (tnewlins)
taddnl(0);
else
taddchr(' ');
taddstr("esac");
stack = 1;
} else {
Wordcode prev_pc;
tindent++;
if (tnewlins)
taddnl(0);
else
taddchr(' ');
taddstr("(");
code = *state->pc++;
prev_pc = state->pc++;
ialts = *prev_pc;
while (ialts--) {
taddstr(ecgetstr(state, EC_NODUP, NULL));
state->pc++;
if (ialts)
taddstr(" | ");
}
taddstr(") ");
tindent++;
n = tpush(code, 0);
n->u._case.end = end;
n->pop = (prev_pc + WC_CASE_SKIP(code) >= end);
}
} else if (state->pc < s->u._case.end) {
Wordcode prev_pc;
wordcode ialts;
dec_tindent();
switch (WC_CASE_TYPE(code)) {
case WC_CASE_OR:
taddstr(" ;;");
break;
case WC_CASE_AND:
taddstr(" ;&");
break;
default:
taddstr(" ;|");
break;
}
if (tnewlins)
taddnl(0);
else
taddchr(' ');
taddstr("(");
code = *state->pc++;
prev_pc = state->pc++;
ialts = *prev_pc;
while (ialts--) {
taddstr(ecgetstr(state, EC_NODUP, NULL));
state->pc++;
if (ialts)
taddstr(" | ");
}
taddstr(") ");
tindent++;
s->code = code;
s->pop = (prev_pc + WC_CASE_SKIP(code) >=
s->u._case.end);
} else {
dec_tindent();
switch (WC_CASE_TYPE(code)) {
case WC_CASE_OR:
taddstr(" ;;");
break;
case WC_CASE_AND:
taddstr(" ;&");
break;
default:
taddstr(" ;|");
break;
}
dec_tindent();
if (tnewlins)
taddnl(0);
else
taddchr(' ');
taddstr("esac");
stack = 1;
}
break;
case WC_IF:
if (!s) {
Wordcode end = state->pc + WC_IF_SKIP(code);
taddstr("if ");
tindent++;
state->pc++;
n = tpush(code, 0);
n->u._if.end = end;
n->u._if.cond = 1;
} else if (s->pop) {
stack = 1;
} else if (s->u._if.cond) {
dec_tindent();
taddnl(0);
taddstr("then");
tindent++;
taddnl(0);
s->u._if.cond = 0;
} else if (state->pc < s->u._if.end) {
dec_tindent();
taddnl(0);
code = *state->pc++;
if (WC_IF_TYPE(code) == WC_IF_ELIF) {
taddstr("elif ");
tindent++;
s->u._if.cond = 1;
} else {
taddstr("else");
tindent++;
taddnl(0);
}
} else {
s->pop = 1;
dec_tindent();
taddnl(0);
taddstr("fi");
stack = 1;
}
break;
case WC_COND:
{
static char *c1[] = {
"=", "!=", "<", ">", "-nt", "-ot", "-ef", "-eq",
"-ne", "-lt", "-gt", "-le", "-ge", "=~"
};
int ctype;
if (!s) {
taddstr("[[ ");
n = tpush(code, 1);
n->u._cond.par = 2;
} else if (s->u._cond.par == 2) {
taddstr(" ]]");
stack = 1;
break;
} else if (s->u._cond.par == 1) {
taddstr(" )");
stack = 1;
break;
} else if (WC_COND_TYPE(s->code) == COND_AND) {
taddstr(" && ");
code = *state->pc++;
if (WC_COND_TYPE(code) == COND_OR) {
taddstr("( ");
n = tpush(code, 1);
n->u._cond.par = 1;
}
} else if (WC_COND_TYPE(s->code) == COND_OR) {
taddstr(" || ");
code = *state->pc++;
if (WC_COND_TYPE(code) == COND_AND) {
taddstr("( ");
n = tpush(code, 1);
n->u._cond.par = 1;
}
}
while (!stack) {
switch ((ctype = WC_COND_TYPE(code))) {
case COND_NOT:
taddstr("! ");
code = *state->pc++;
if (WC_COND_TYPE(code) <= COND_OR) {
taddstr("( ");
n = tpush(code, 1);
n->u._cond.par = 1;
}
break;
case COND_AND:
n = tpush(code, 1);
n->u._cond.par = 0;
code = *state->pc++;
if (WC_COND_TYPE(code) == COND_OR) {
taddstr("( ");
n = tpush(code, 1);
n->u._cond.par = 1;
}
break;
case COND_OR:
n = tpush(code, 1);
n->u._cond.par = 0;
code = *state->pc++;
if (WC_COND_TYPE(code) == COND_AND) {
taddstr("( ");
n = tpush(code, 1);
n->u._cond.par = 1;
}
break;
case COND_MOD:
taddstr(ecgetstr(state, EC_NODUP, NULL));
taddchr(' ');
taddlist(state, WC_COND_SKIP(code));
stack = 1;
break;
case COND_MODI:
{
char *name = ecgetstr(state, EC_NODUP, NULL);
taddstr(ecgetstr(state, EC_NODUP, NULL));
taddchr(' ');
taddstr(name);
taddchr(' ');
taddstr(ecgetstr(state, EC_NODUP, NULL));
stack = 1;
}
break;
default:
if (ctype < COND_MOD) {
/* Binary test: `a = b' etc. */
taddstr(ecgetstr(state, EC_NODUP, NULL));
taddstr(" ");
taddstr(c1[ctype - COND_STREQ]);
taddstr(" ");
taddstr(ecgetstr(state, EC_NODUP, NULL));
if (ctype == COND_STREQ ||
ctype == COND_STRNEQ)
state->pc++;
} else {
/* Unary test: `-f foo' etc. */
char c2[4];
c2[0] = '-';
c2[1] = ctype;
c2[2] = ' ';
c2[3] = '\0';
taddstr(c2);
taddstr(ecgetstr(state, EC_NODUP, NULL));
}
stack = 1;
break;
}
}
}
break;
case WC_ARITH:
taddstr("((");
taddstr(ecgetstr(state, EC_NODUP, NULL));
taddstr("))");
stack = 1;
break;
case WC_AUTOFN:
taddstr("builtin autoload -X");
stack = 1;
break;
case WC_TRY:
if (!s) {
taddstr("{");
tindent++;
taddnl(0);
n = tpush(code, 0);
state->pc++;
/* this is the end of the try block alone */
n->u._subsh.end = state->pc + WC_CURSH_SKIP(state->pc[-1]);
} else if (!s->pop) {
state->pc = s->u._subsh.end;
dec_tindent();
taddnl(0);
taddstr("} always {");
tindent++;
taddnl(0);
s->pop = 1;
} else {
dec_tindent();
taddnl(0);
taddstr("}");
stack = 1;
}
break;
case WC_END:
stack = 1;
break;
default:
DPUTS(1, "unknown word code in gettext2()");
return;
}
}
tdopending();
}
/**/
void
getredirs(LinkList redirs)
{
LinkNode n;
static char *fstr[] =
{
">", ">|", ">>", ">>|", "&>", "&>|", "&>>", "&>>|", "<>", "<",
"<<", "<<-", "<<<", "<&", ">&", NULL /* >&- */, "<", ">"
};
queue_signals();
taddchr(' ');
for (n = firstnode(redirs); n; incnode(n)) {
Redir f = (Redir) getdata(n);
switch (f->type) {
case REDIR_WRITE:
case REDIR_WRITENOW:
case REDIR_APP:
case REDIR_APPNOW:
case REDIR_ERRWRITE:
case REDIR_ERRWRITENOW:
case REDIR_ERRAPP:
case REDIR_ERRAPPNOW:
case REDIR_READ:
case REDIR_READWRITE:
case REDIR_HERESTR:
case REDIR_MERGEIN:
case REDIR_MERGEOUT:
case REDIR_INPIPE:
case REDIR_OUTPIPE:
if (f->varid) {
taddchr('{');
taddstr(f->varid);
taddchr('}');
} else if (f->fd1 != (IS_READFD(f->type) ? 0 : 1))
taddchr('0' + f->fd1);
if (f->type == REDIR_HERESTR &&
(f->flags & REDIRF_FROM_HEREDOC)) {
if (tnewlins) {
/*
* Strings that came from here-documents are converted
* to here strings without quotation, so convert them
* back.
*/
taddstr(fstr[REDIR_HEREDOC]);
taddstr(f->here_terminator);
taddpending(f->name, f->munged_here_terminator);
} else {
int fnamelen, sav;
taddstr(fstr[REDIR_HERESTR]);
/*
* Just a quick and dirty representation.
* Remove a terminating newline, if any.
*/
fnamelen = strlen(f->name);
if (fnamelen > 0 && f->name[fnamelen-1] == '\n') {
sav = 1;
f->name[fnamelen-1] = '\0';
} else
sav = 0;
/*
* Strings that came from here-documents are converted
* to here strings without quotation, so add that
* now. If tokens are present we need to do double quoting.
*/
if (!has_token(f->name)) {
taddchr('\'');
taddstr(quotestring(f->name, NULL, QT_SINGLE));
taddchr('\'');
} else {
taddchr('"');
taddstr(quotestring(f->name, NULL, QT_DOUBLE));
taddchr('"');
}
if (sav)
f->name[fnamelen-1] = '\n';
}
} else {
taddstr(fstr[f->type]);
if (f->type != REDIR_MERGEIN && f->type != REDIR_MERGEOUT)
taddchr(' ');
taddstr(f->name);
}
taddchr(' ');
break;
#ifdef DEBUG
case REDIR_CLOSE:
DPUTS(1, "BUG: CLOSE in getredirs()");
taddchr(f->fd1 + '0');
taddstr(">&- ");
break;
default:
DPUTS(1, "BUG: unknown redirection in getredirs()");
#endif
}
}
tptr--;
unqueue_signals();
}