/****************************************************************************
* Copyright (c) 1998-2017,2018 Free Software Foundation, Inc. *
* *
* Permission is hereby granted, free of charge, to any person obtaining a *
* copy of this software and associated documentation files (the *
* "Software"), to deal in the Software without restriction, including *
* without limitation the rights to use, copy, modify, merge, publish, *
* distribute, distribute with modifications, sublicense, and/or sell *
* copies of the Software, and to permit persons to whom the Software is *
* furnished to do so, subject to the following conditions: *
* *
* The above copyright notice and this permission notice shall be included *
* in all copies or substantial portions of the Software. *
* *
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS *
* OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF *
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. *
* IN NO EVENT SHALL THE ABOVE COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, *
* DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR *
* OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR *
* THE USE OR OTHER DEALINGS IN THE SOFTWARE. *
* *
* Except as contained in this notice, the name(s) of the above copyright *
* holders shall not be used in advertising or otherwise to promote the *
* sale, use or other dealings in this Software without prior written *
* authorization. *
****************************************************************************/
/****************************************************************************
* Author: Zeyd M. Ben-Halim <zmbenhal@netcom.com> 1992,1995 *
* and: Eric S. Raymond <esr@snark.thyrsus.com> *
* and: Thomas E. Dickey 1996 on *
****************************************************************************/
/*
* tic.c --- Main program for terminfo compiler
* by Eric S. Raymond
* and Thomas E Dickey
*
*/
#include <progs.priv.h>
#include <sys/stat.h>
#include <dump_entry.h>
#include <tparm_type.h>
#include <hashed_db.h>
#include <parametrized.h>
#include <transform.h>
MODULE_ID("$Id: tic.c,v 1.252 2018/01/25 19:16:50 tom Exp $")
#define STDIN_NAME "<stdin>"
const char *_nc_progname = "tic";
static FILE *log_fp;
static FILE *tmp_fp;
static bool capdump = FALSE; /* running as infotocap? */
static bool infodump = FALSE; /* running as captoinfo? */
static bool showsummary = FALSE;
static char **namelst = 0;
static const char *to_remove;
#if NCURSES_XNAMES
static bool using_extensions = FALSE;
#endif
static void (*save_check_termtype) (TERMTYPE2 *, bool);
static void check_termtype(TERMTYPE2 *tt, bool);
static const char usage_string[] = "\
[-e names] \
[-o dir] \
[-R name] \
[-v[n]] \
[-V] \
[-w[n]] \
[-\
1\
a\
C\
D\
c\
f\
G\
g\
I\
K\
L\
N\
r\
s\
T\
t\
U\
x\
] \
source-file\n";
#if NO_LEAKS
static void
free_namelist(char **src)
{
if (src != 0) {
int n;
for (n = 0; src[n] != 0; ++n)
free(src[n]);
free(src);
}
}
#endif
static void
cleanup(void)
{
int rc;
#if NO_LEAKS
free_namelist(namelst);
_nc_leaks_dump_entry();
#endif
if (tmp_fp != 0)
fclose(tmp_fp);
if (to_remove != 0) {
#if HAVE_REMOVE
rc = remove(to_remove);
#else
rc = unlink(to_remove);
#endif
if (rc != 0)
perror(to_remove);
}
}
static void
failed(const char *msg)
{
perror(msg);
ExitProgram(EXIT_FAILURE);
}
static void
usage(void)
{
#define DATA(s) s "\n"
static const char options_string[] =
{
DATA("Options:")
DATA(" -0 format translation output all capabilities on one line")
DATA(" -1 format translation output one capability per line")
#if NCURSES_XNAMES
DATA(" -a retain commented-out capabilities (sets -x also)")
#endif
DATA(" -C translate entries to termcap source form")
DATA(" -D print list of tic's database locations (first must be writable)")
DATA(" -c check only, validate input without compiling or translating")
DATA(" -e<names> translate/compile only entries named by comma-separated list")
DATA(" -f format complex strings for readability")
DATA(" -G format %{number} to %'char'")
DATA(" -g format %'char' to %{number}")
DATA(" -I translate entries to terminfo source form")
DATA(" -K translate entries to termcap source form with BSD syntax")
DATA(" -L translate entries to full terminfo source form")
DATA(" -N disable smart defaults for source translation")
DATA(" -o<dir> set output directory for compiled entry writes")
DATA(" -Q[n] dump compiled description")
DATA(" -q brief listing, removes headers")
DATA(" -R<name> restrict translation to given terminfo/termcap version")
DATA(" -r force resolution of all use entries in source translation")
DATA(" -s print summary statistics")
DATA(" -T remove size-restrictions on compiled description")
#if NCURSES_XNAMES
DATA(" -t suppress commented-out capabilities")
#endif
DATA(" -U suppress post-processing of entries")
DATA(" -V print version")
DATA(" -W wrap long strings according to -w[n] option")
DATA(" -v[n] set verbosity level")
DATA(" -w[n] set format width for translation output")
#if NCURSES_XNAMES
DATA(" -x treat unknown capabilities as user-defined")
#endif
DATA("")
DATA("Parameters:")
DATA(" <file> file to translate or compile")
};
#undef DATA
fprintf(stderr, "Usage: %s %s\n", _nc_progname, usage_string);
fputs(options_string, stderr);
ExitProgram(EXIT_FAILURE);
}
#define L_BRACE '{'
#define R_BRACE '}'
#define S_QUOTE '\''
static void
write_it(ENTRY * ep)
{
unsigned n;
int ch;
char *s, *d, *t;
char result[MAX_ENTRY_SIZE];
/*
* Look for strings that contain %{number}, convert them to %'char',
* which is shorter and runs a little faster.
*/
for (n = 0; n < STRCOUNT; n++) {
s = ep->tterm.Strings[n];
if (VALID_STRING(s)
&& strchr(s, L_BRACE) != 0) {
d = result;
t = s;
while ((ch = *t++) != 0) {
*d++ = (char) ch;
if (ch == '\\') {
*d++ = *t++;
} else if ((ch == '%')
&& (*t == L_BRACE)) {
char *v = 0;
long value = strtol(t + 1, &v, 0);
if (v != 0
&& *v == R_BRACE
&& value > 0
&& value != '\\' /* FIXME */
&& value < 127
&& isprint((int) value)) {
*d++ = S_QUOTE;
*d++ = (char) value;
*d++ = S_QUOTE;
t = (v + 1);
}
}
}
*d = 0;
if (strlen(result) < strlen(s))
_nc_STRCPY(s, result, strlen(s) + 1);
}
}
_nc_set_type(_nc_first_name(ep->tterm.term_names));
_nc_curr_line = (int) ep->startline;
_nc_write_entry(&ep->tterm);
}
static bool
immedhook(ENTRY * ep GCC_UNUSED)
/* write out entries with no use capabilities immediately to save storage */
{
#if !HAVE_BIG_CORE
/*
* This is strictly a core-economy kluge. The really clean way to handle
* compilation is to slurp the whole file into core and then do all the
* name-collision checks and entry writes in one swell foop. But the
* terminfo master file is large enough that some core-poor systems swap
* like crazy when you compile it this way...there have been reports of
* this process taking *three hours*, rather than the twenty seconds or
* less typical on my development box.
*
* So. This hook *immediately* writes out the referenced entry if it
* has no use capabilities. The compiler main loop refrains from
* adding the entry to the in-core list when this hook fires. If some
* other entry later needs to reference an entry that got written
* immediately, that's OK; the resolution code will fetch it off disk
* when it can't find it in core.
*
* Name collisions will still be detected, just not as cleanly. The
* write_entry() code complains before overwriting an entry that
* postdates the time of tic's first call to write_entry(). Thus
* it will complain about overwriting entries newly made during the
* tic run, but not about overwriting ones that predate it.
*
* The reason this is a hook, and not in line with the rest of the
* compiler code, is that the support for termcap fallback cannot assume
* it has anywhere to spool out these entries!
*
* The _nc_set_type() call here requires a compensating one in
* _nc_parse_entry().
*
* If you define HAVE_BIG_CORE, you'll disable this kluge. This will
* make tic a bit faster (because the resolution code won't have to do
* disk I/O nearly as often).
*/
if (ep->nuses == 0) {
int oldline = _nc_curr_line;
write_it(ep);
_nc_curr_line = oldline;
free(ep->tterm.str_table);
return (TRUE);
}
#endif /* HAVE_BIG_CORE */
return (FALSE);
}
static void
put_translate(int c)
/* emit a comment char, translating terminfo names to termcap names */
{
static bool in_name = FALSE;
static size_t have, used;
static char *namebuf, *suffix;
if (in_name) {
if (used + 1 >= have) {
have += 132;
if ((namebuf = typeRealloc(char, have, namebuf)) == 0)
failed("put_translate namebuf");
if ((suffix = typeRealloc(char, have, suffix)) == 0)
failed("put_translate suffix");
}
if (c == '\n' || c == '@') {
namebuf[used++] = '\0';
(void) putchar('<');
(void) fputs(namebuf, stdout);
putchar(c);
in_name = FALSE;
} else if (c != '>') {
namebuf[used++] = (char) c;
} else { /* ah! candidate name! */
char *up;
NCURSES_CONST char *tp;
namebuf[used++] = '\0';
in_name = FALSE;
suffix[0] = '\0';
if ((up = strchr(namebuf, '#')) != 0
|| (up = strchr(namebuf, '=')) != 0
|| ((up = strchr(namebuf, '@')) != 0 && up[1] == '>')) {
_nc_STRCPY(suffix, up, have);
*up = '\0';
}
if ((tp = nametrans(namebuf)) != 0) {
(void) putchar(':');
(void) fputs(tp, stdout);
(void) fputs(suffix, stdout);
(void) putchar(':');
} else {
/* couldn't find a translation, just dump the name */
(void) putchar('<');
(void) fputs(namebuf, stdout);
(void) fputs(suffix, stdout);
(void) putchar('>');
}
}
} else {
used = 0;
if (c == '<') {
in_name = TRUE;
} else {
putchar(c);
}
}
}
/* Returns a string, stripped of leading/trailing whitespace */
static char *
stripped(char *src)
{
char *dst = 0;
while (isspace(UChar(*src)))
src++;
if (*src != '\0') {
size_t len;
if ((dst = strdup(src)) == NULL) {
failed("strdup");
} else {
len = strlen(dst);
while (--len != 0 && isspace(UChar(dst[len])))
dst[len] = '\0';
}
}
return dst;
}
static FILE *
open_tempfile(char *filename)
{
FILE *result = 0;
_nc_STRCPY(filename, "/tmp/XXXXXX", PATH_MAX);
#if HAVE_MKSTEMP
{
int oldmask = (int) umask(077);
int fd = mkstemp(filename);
if (fd >= 0)
result = fdopen(fd, "w");
umask((mode_t) oldmask);
}
#else
if (tmpnam(filename) != 0)
result = fopen(filename, "w");
#endif
return result;
}
static FILE *
copy_input(FILE *source, const char *filename, char *alt_file)
{
char my_altfile[PATH_MAX];
FILE *result = 0;
FILE *target = 0;
int ch;
if (alt_file == 0)
alt_file = my_altfile;
if (source == 0) {
failed("copy_input (source)");
} else if ((target = open_tempfile(alt_file)) == 0) {
failed("copy_input (target)");
} else {
clearerr(source);
for (;;) {
ch = fgetc(source);
if (feof(source)) {
break;
} else if (ferror(source)) {
failed(filename);
} else if (ch == 0) {
/* don't loop in case someone wants to convert /dev/zero */
fprintf(stderr, "%s: %s is not a text-file\n", _nc_progname, filename);
ExitProgram(EXIT_FAILURE);
}
fputc(ch, target);
}
fclose(source);
/*
* rewind() does not force the target file's data to disk (not does
* fflush()...). So open a second stream on the data and then close
* the one that we were writing on before starting to read from the
* second stream.
*/
result = fopen(alt_file, "r+");
fclose(target);
to_remove = strdup(alt_file);
}
return result;
}
static FILE *
open_input(const char *filename, char *alt_file)
{
FILE *fp;
struct stat sb;
int mode;
if (!strcmp(filename, "-")) {
fp = copy_input(stdin, STDIN_NAME, alt_file);
} else if (stat(filename, &sb) < 0) {
fprintf(stderr, "%s: %s %s\n", _nc_progname, filename, strerror(errno));
ExitProgram(EXIT_FAILURE);
} else if ((mode = (sb.st_mode & S_IFMT)) == S_IFDIR
|| (mode != S_IFREG && mode != S_IFCHR && mode != S_IFIFO)) {
fprintf(stderr, "%s: %s is not a file\n", _nc_progname, filename);
ExitProgram(EXIT_FAILURE);
} else {
fp = fopen(filename, "r");
if (fp == 0) {
fprintf(stderr, "%s: Can't open %s\n", _nc_progname, filename);
ExitProgram(EXIT_FAILURE);
}
if (mode != S_IFREG) {
if (alt_file != 0) {
FILE *fp2 = copy_input(fp, filename, alt_file);
fp = fp2;
} else {
fprintf(stderr, "%s: %s is not a file\n", _nc_progname, filename);
ExitProgram(EXIT_FAILURE);
}
}
}
return fp;
}
/* Parse the "-e" option-value into a list of names */
static char **
make_namelist(char *src)
{
char **dst = 0;
char *s, *base;
unsigned pass, n, nn;
char buffer[BUFSIZ];
if (src == 0) {
/* EMPTY */ ;
} else if (strchr(src, '/') != 0) { /* a filename */
FILE *fp = open_input(src, (char *) 0);
for (pass = 1; pass <= 2; pass++) {
nn = 0;
while (fgets(buffer, sizeof(buffer), fp) != 0) {
if ((s = stripped(buffer)) != 0) {
if (dst != 0)
dst[nn] = s;
else
free(s);
nn++;
}
}
if (pass == 1) {
if ((dst = typeCalloc(char *, nn + 1)) == 0)
failed("make_namelist");
rewind(fp);
}
}
fclose(fp);
} else { /* literal list of names */
for (pass = 1; pass <= 2; pass++) {
for (n = nn = 0, base = src;; n++) {
int mark = src[n];
if (mark == ',' || mark == '\0') {
if (pass == 1) {
nn++;
} else {
src[n] = '\0';
if ((s = stripped(base)) != 0)
dst[nn++] = s;
base = &src[n + 1];
}
}
if (mark == '\0')
break;
}
if (pass == 1) {
if ((dst = typeCalloc(char *, nn + 1)) == 0)
failed("make_namelist");
}
}
}
if (showsummary && (dst != 0)) {
fprintf(log_fp, "Entries that will be compiled:\n");
for (n = 0; dst[n] != 0; n++)
fprintf(log_fp, "%u:%s\n", n + 1, dst[n]);
}
return dst;
}
static bool
matches(char **needle, const char *haystack)
/* does entry in needle list match |-separated field in haystack? */
{
bool code = FALSE;
size_t n;
if (needle != 0) {
for (n = 0; needle[n] != 0; n++) {
if (_nc_name_match(haystack, needle[n], "|")) {
code = TRUE;
break;
}
}
} else
code = TRUE;
return (code);
}
static char *
valid_db_path(const char *nominal)
{
struct stat sb;
#if USE_HASHED_DB
char suffix[] = DBM_SUFFIX;
size_t need = strlen(nominal) + sizeof(suffix);
char *result = malloc(need);
if (result == 0)
failed("valid_db_path");
_nc_STRCPY(result, nominal, need);
if (strcmp(result + need - sizeof(suffix), suffix)) {
_nc_STRCAT(result, suffix, need);
}
#else
char *result = strdup(nominal);
#endif
DEBUG(1, ("** stat(%s)", result));
if (stat(result, &sb) >= 0) {
#if USE_HASHED_DB
if (!S_ISREG(sb.st_mode)
|| access(result, R_OK | W_OK) != 0) {
DEBUG(1, ("...not a writable file"));
free(result);
result = 0;
}
#else
if (!S_ISDIR(sb.st_mode)
|| access(result, R_OK | W_OK | X_OK) != 0) {
DEBUG(1, ("...not a writable directory"));
free(result);
result = 0;
}
#endif
} else {
/* check if parent is directory and is writable */
unsigned leaf = _nc_pathlast(result);
DEBUG(1, ("...not found"));
if (leaf) {
char save = result[leaf];
result[leaf] = 0;
if (stat(result, &sb) >= 0
&& S_ISDIR(sb.st_mode)
&& access(result, R_OK | W_OK | X_OK) == 0) {
result[leaf] = save;
} else {
DEBUG(1, ("...parent directory %s is not writable", result));
free(result);
result = 0;
}
} else {
DEBUG(1, ("... no parent directory"));
free(result);
result = 0;
}
}
return result;
}
/*
* Show the databases to which tic could write. The location to which it
* writes is always the first one. If none are writable, print an error
* message.
*/
static void
show_databases(const char *outdir)
{
bool specific = (outdir != 0) || getenv("TERMINFO") != 0;
char *result;
const char *tried = 0;
if (outdir == 0) {
outdir = _nc_tic_dir(0);
}
if ((result = valid_db_path(outdir)) != 0) {
printf("%s\n", result);
free(result);
} else {
tried = outdir;
}
if ((outdir = _nc_home_terminfo())) {
if ((result = valid_db_path(outdir)) != 0) {
printf("%s\n", result);
free(result);
} else if (!specific) {
tried = outdir;
}
}
/*
* If we can write in neither location, give an error message.
*/
if (tried) {
fflush(stdout);
fprintf(stderr, "%s: %s (no permission)\n", _nc_progname, tried);
ExitProgram(EXIT_FAILURE);
}
}
static void
add_digit(int *target, int source)
{
*target = (*target * 10) + (source - '0');
}
int
main(int argc, char *argv[])
{
char my_tmpname[PATH_MAX];
char my_altfile[PATH_MAX];
int v_opt = -1;
unsigned debug_level;
int smart_defaults = TRUE;
char *termcap;
ENTRY *qp;
int this_opt, last_opt = '?';
int outform = F_TERMINFO; /* output format */
int sortmode = S_TERMINFO; /* sort_mode */
int width = 60;
int height = 65535;
bool formatted = FALSE; /* reformat complex strings? */
bool literal = FALSE; /* suppress post-processing? */
int numbers = 0; /* format "%'char'" to/from "%{number}" */
bool forceresolve = FALSE; /* force resolution */
bool limited = TRUE;
char *tversion = (char *) NULL;
const char *source_file = "terminfo";
char *outdir = (char *) NULL;
bool check_only = FALSE;
bool suppress_untranslatable = FALSE;
int quickdump = 0;
bool quiet = FALSE;
bool wrap_strings = FALSE;
log_fp = stderr;
_nc_progname = _nc_rootname(argv[0]);
atexit(cleanup);
if ((infodump = same_program(_nc_progname, PROG_CAPTOINFO)) != FALSE) {
outform = F_TERMINFO;
sortmode = S_TERMINFO;
}
if ((capdump = same_program(_nc_progname, PROG_INFOTOCAP)) != FALSE) {
outform = F_TERMCAP;
sortmode = S_TERMCAP;
}
#if NCURSES_XNAMES
use_extended_names(FALSE);
#endif
_nc_strict_bsd = 0;
/*
* Processing arguments is a little complicated, since someone made a
* design decision to allow the numeric values for -w, -v options to
* be optional.
*/
while ((this_opt = getopt(argc, argv,
"0123456789CDIKLNQR:TUVWace:fGgo:qrstvwx")) != -1) {
if (isdigit(this_opt)) {
switch (last_opt) {
case 'Q':
add_digit(&quickdump, this_opt);
break;
case 'v':
add_digit(&v_opt, this_opt);
break;
case 'w':
add_digit(&width, this_opt);
break;
default:
switch (this_opt) {
case '0':
last_opt = this_opt;
width = 65535;
height = 1;
break;
case '1':
last_opt = this_opt;
width = 0;
break;
default:
usage();
}
}
continue;
}
switch (this_opt) {
case 'K':
_nc_strict_bsd = 1;
/* the initial version of -K in 20110730 fell-thru here, but the
* same flag is useful when reading sources -TD
*/
break;
case 'C':
capdump = TRUE;
outform = F_TERMCAP;
sortmode = S_TERMCAP;
break;
case 'D':
debug_level = VtoTrace(v_opt);
set_trace_level(debug_level);
show_databases(outdir);
ExitProgram(EXIT_SUCCESS);
break;
case 'I':
infodump = TRUE;
outform = F_TERMINFO;
sortmode = S_TERMINFO;
break;
case 'L':
infodump = TRUE;
outform = F_VARIABLE;
sortmode = S_VARIABLE;
break;
case 'N':
smart_defaults = FALSE;
literal = TRUE;
break;
case 'Q':
quickdump = 0;
break;
case 'R':
tversion = optarg;
break;
case 'T':
limited = FALSE;
break;
case 'U':
literal = TRUE;
break;
case 'V':
puts(curses_version());
ExitProgram(EXIT_SUCCESS);
case 'W':
wrap_strings = TRUE;
break;
case 'c':
check_only = TRUE;
break;
case 'e':
namelst = make_namelist(optarg);
break;
case 'f':
formatted = TRUE;
break;
case 'G':
numbers = 1;
break;
case 'g':
numbers = -1;
break;
case 'o':
outdir = optarg;
break;
case 'q':
quiet = TRUE;
break;
case 'r':
forceresolve = TRUE;
break;
case 's':
showsummary = TRUE;
break;
case 'v':
v_opt = 0;
break;
case 'w':
width = 0;
break;
#if NCURSES_XNAMES
case 't':
_nc_disable_period = FALSE;
suppress_untranslatable = TRUE;
break;
case 'a':
_nc_disable_period = TRUE;
/* FALLTHRU */
case 'x':
use_extended_names(TRUE);
using_extensions = TRUE;
break;
#endif
default:
usage();
}
last_opt = this_opt;
}
debug_level = VtoTrace(v_opt);
set_trace_level(debug_level);
if (_nc_tracing) {
save_check_termtype = _nc_check_termtype2;
_nc_check_termtype2 = check_termtype;
}
#if !HAVE_BIG_CORE
/*
* Aaargh! immedhook seriously hoses us!
*
* One problem with immedhook is it means we can't do -e. Problem
* is that we can't guarantee that for each terminal listed, all the
* terminals it depends on will have been kept in core for reference
* resolution -- in fact it's certain the primitive types at the end
* of reference chains *won't* be in core unless they were explicitly
* in the select list themselves.
*/
if (namelst && (!infodump && !capdump)) {
(void) fprintf(stderr,
"%s: Sorry, -e can't be used without -I or -C\n",
_nc_progname);
ExitProgram(EXIT_FAILURE);
}
#endif /* HAVE_BIG_CORE */
if (optind < argc) {
source_file = argv[optind++];
if (optind < argc) {
fprintf(stderr,
"%s: Too many file names. Usage:\n\t%s %s",
_nc_progname,
_nc_progname,
usage_string);
ExitProgram(EXIT_FAILURE);
}
} else {
if (infodump == TRUE) {
/* captoinfo's no-argument case */
source_file = "/etc/termcap";
if ((termcap = getenv("TERMCAP")) != 0
&& (namelst = make_namelist(getenv("TERM"))) != 0) {
if (access(termcap, F_OK) == 0) {
/* file exists */
source_file = termcap;
} else {
if ((tmp_fp = open_tempfile(my_tmpname)) != 0) {
source_file = my_tmpname;
fprintf(tmp_fp, "%s\n", termcap);
fclose(tmp_fp);
tmp_fp = open_input(source_file, (char *) 0);
to_remove = source_file;
} else {
failed("tmpnam");
}
}
}
} else {
/* tic */
fprintf(stderr,
"%s: File name needed. Usage:\n\t%s %s",
_nc_progname,
_nc_progname,
usage_string);
ExitProgram(EXIT_FAILURE);
}
}
if (tmp_fp == 0) {
tmp_fp = open_input(source_file, my_altfile);
if (!strcmp(source_file, "-")) {
source_file = STDIN_NAME;
}
}
if (infodump || check_only) {
dump_init(tversion,
(smart_defaults
? outform
: F_LITERAL),
sortmode,
wrap_strings, width, height,
debug_level, formatted || check_only, check_only, quickdump);
} else if (capdump) {
dump_init(tversion,
outform,
sortmode,
wrap_strings, width, height,
debug_level, FALSE, FALSE, FALSE);
}
/* parse entries out of the source file */
_nc_set_source(source_file);
#if !HAVE_BIG_CORE
if (!(check_only || infodump || capdump))
_nc_set_writedir(outdir);
#endif /* HAVE_BIG_CORE */
_nc_read_entry_source(tmp_fp, (char *) NULL,
!smart_defaults || literal, FALSE,
((check_only || infodump || capdump)
? NULLHOOK
: immedhook));
/* do use resolution */
if (check_only || (!infodump && !capdump) || forceresolve) {
if (!_nc_resolve_uses2(TRUE, literal) && !check_only) {
ExitProgram(EXIT_FAILURE);
}
}
/* length check */
if (check_only && limited && (capdump || infodump)) {
for_entry_list(qp) {
if (matches(namelst, qp->tterm.term_names)) {
int len = fmt_entry(&qp->tterm, NULL, FALSE, TRUE, infodump, numbers);
if (len > (infodump ? MAX_TERMINFO_LENGTH : MAX_TERMCAP_LENGTH))
(void) fprintf(stderr,
"%s: resolved %s entry is %d bytes long\n",
_nc_progname,
_nc_first_name(qp->tterm.term_names),
len);
}
}
}
/* write or dump all entries */
if (check_only) {
/* this is in case infotocap() generates warnings */
_nc_curr_col = _nc_curr_line = -1;
for_entry_list(qp) {
if (matches(namelst, qp->tterm.term_names)) {
/* this is in case infotocap() generates warnings */
_nc_set_type(_nc_first_name(qp->tterm.term_names));
_nc_curr_line = (int) qp->startline;
repair_acsc(&qp->tterm);
dump_entry(&qp->tterm, suppress_untranslatable,
limited, numbers, NULL);
}
}
} else {
if (!infodump && !capdump) {
_nc_set_writedir(outdir);
for_entry_list(qp) {
if (matches(namelst, qp->tterm.term_names))
write_it(qp);
}
} else {
/* this is in case infotocap() generates warnings */
_nc_curr_col = _nc_curr_line = -1;
for_entry_list(qp) {
if (matches(namelst, qp->tterm.term_names)) {
long j = qp->cend - qp->cstart;
int len = 0;
/* this is in case infotocap() generates warnings */
_nc_set_type(_nc_first_name(qp->tterm.term_names));
if (!quiet) {
(void) fseek(tmp_fp, qp->cstart, SEEK_SET);
while (j-- > 0) {
if (infodump)
(void) putchar(fgetc(tmp_fp));
else
put_translate(fgetc(tmp_fp));
}
}
repair_acsc(&qp->tterm);
dump_entry(&qp->tterm, suppress_untranslatable,
limited, numbers, NULL);
for (j = 0; j < (long) qp->nuses; j++)
dump_uses(qp->uses[j].name, !capdump);
len = show_entry();
if (debug_level != 0 && !limited)
printf("# length=%d\n", len);
}
}
if (!namelst && _nc_tail && !quiet) {
int c, oldc = '\0';
bool in_comment = FALSE;
bool trailing_comment = FALSE;
(void) fseek(tmp_fp, _nc_tail->cend, SEEK_SET);
while ((c = fgetc(tmp_fp)) != EOF) {
if (oldc == '\n') {
if (c == '#') {
trailing_comment = TRUE;
in_comment = TRUE;
} else {
in_comment = FALSE;
}
}
if (trailing_comment
&& (in_comment || (oldc == '\n' && c == '\n')))
putchar(c);
oldc = c;
}
}
}
}
/* Show the directory into which entries were written, and the total
* number of entries
*/
if (showsummary
&& (!(check_only || infodump || capdump))) {
int total = _nc_tic_written();
if (total != 0)
fprintf(log_fp, "%d entries written to %s\n",
total,
_nc_tic_dir((char *) 0));
else
fprintf(log_fp, "No entries written\n");
}
ExitProgram(EXIT_SUCCESS);
}
/*
* This bit of legerdemain turns all the terminfo variable names into
* references to locations in the arrays Booleans, Numbers, and Strings ---
* precisely what's needed (see comp_parse.c).
*/
#undef CUR
#define CUR tp->
/*
* Check if the alternate character-set capabilities are consistent.
*/
static void
check_acs(TERMTYPE2 *tp)
{
if (VALID_STRING(acs_chars)) {
const char *boxes = "lmkjtuvwqxn";
char mapped[256];
char missing[256];
const char *p;
char *q;
memset(mapped, 0, sizeof(mapped));
for (p = acs_chars; *p != '\0'; p += 2) {
if (p[1] == '\0') {
_nc_warning("acsc has odd number of characters");
break;
}
mapped[UChar(p[0])] = p[1];
}
if (mapped[UChar('I')] && !mapped[UChar('i')]) {
_nc_warning("acsc refers to 'I', which is probably an error");
}
for (p = boxes, q = missing; *p != '\0'; ++p) {
if (!mapped[UChar(p[0])]) {
*q++ = p[0];
}
}
*q = '\0';
assert(strlen(missing) <= strlen(boxes));
if (*missing != '\0' && strcmp(missing, boxes)) {
_nc_warning("acsc is missing some line-drawing mapping: %s", missing);
}
}
}
/*
* Check if the color capabilities are consistent
*/
static void
check_colors(TERMTYPE2 *tp)
{
if ((max_colors > 0) != (max_pairs > 0)
|| ((max_colors > max_pairs) && (initialize_pair == 0)))
_nc_warning("inconsistent values for max_colors (%d) and max_pairs (%d)",
max_colors, max_pairs);
PAIRED(set_foreground, set_background);
PAIRED(set_a_foreground, set_a_background);
PAIRED(set_color_pair, initialize_pair);
if (VALID_STRING(set_foreground)
&& VALID_STRING(set_a_foreground)
&& !_nc_capcmp(set_foreground, set_a_foreground))
_nc_warning("expected setf/setaf to be different");
if (VALID_STRING(set_background)
&& VALID_STRING(set_a_background)
&& !_nc_capcmp(set_background, set_a_background))
_nc_warning("expected setb/setab to be different");
/* see: has_colors() */
if (VALID_NUMERIC(max_colors) && VALID_NUMERIC(max_pairs)
&& (((set_foreground != NULL)
&& (set_background != NULL))
|| ((set_a_foreground != NULL)
&& (set_a_background != NULL))
|| set_color_pair)) {
if (!VALID_STRING(orig_pair) && !VALID_STRING(orig_colors))
_nc_warning("expected either op/oc string for resetting colors");
}
if (can_change) {
if (!VALID_STRING(initialize_pair) &&
!VALID_STRING(initialize_color)) {
_nc_warning("expected initc or initp because ccc is given");
}
} else {
if (VALID_STRING(initialize_pair) ||
VALID_STRING(initialize_color)) {
_nc_warning("expected ccc because initc is given");
}
}
}
static int
csi_length(const char *value)
{
int result = 0;
if (value[0] == '\033' && value[1] == '[') {
result = 2;
} else if (UChar(value[0]) == 0x9a) {
result = 1;
}
return result;
}
static char
keypad_final(const char *string)
{
char result = '\0';
if (VALID_STRING(string)
&& *string++ == '\033'
&& *string++ == 'O'
&& strlen(string) == 1) {
result = *string;
}
return result;
}
static long
keypad_index(const char *string)
{
char *test;
const char *list = "PQRSwxymtuvlqrsPpn"; /* app-keypad except "Enter" */
int ch;
long result = -1;
if ((ch = keypad_final(string)) != '\0') {
test = (strchr) (list, ch);
if (test != 0)
result = (long) (test - list);
}
return result;
}
/*
* list[] is down, up, left, right
* "left" may be ^H rather than \E[D
* "down" may be ^J rather than \E[B
* But up/right are generally consistently escape sequences for ANSI terminals.
*/
static void
check_ansi_cursor(char *list[4])
{
int j, k;
int want;
size_t suffix;
bool skip[4];
bool repeated = FALSE;
for (j = 0; j < 4; ++j) {
skip[j] = FALSE;
for (k = 0; k < j; ++k) {
if (j != k
&& !strcmp(list[j], list[k])) {
char *value = _nc_tic_expand(list[k], TRUE, 0);
_nc_warning("repeated cursor control %s\n", value);
repeated = TRUE;
}
}
}
if (!repeated) {
char *up = list[1];
size_t prefix = (size_t) csi_length(up);
if (prefix) {
suffix = prefix;
while (up[suffix] && isdigit(UChar(up[suffix])))
++suffix;
}
if (prefix && up[suffix] == 'A') {
skip[1] = TRUE;
if (!strcmp(list[0], "\n"))
skip[0] = TRUE;
if (!strcmp(list[2], "\b"))
skip[2] = TRUE;
for (j = 0; j < 4; ++j) {
if (skip[j] || strlen(list[j]) == 1)
continue;
if (memcmp(list[j], up, prefix)) {
char *value = _nc_tic_expand(list[j], TRUE, 0);
_nc_warning("inconsistent prefix for %s\n", value);
continue;
}
if (strlen(list[j]) < suffix) {
char *value = _nc_tic_expand(list[j], TRUE, 0);
_nc_warning("inconsistent length for %s, expected %d\n",
value, (int) suffix + 1);
continue;
}
want = "BADC"[j];
if (list[j][suffix] != want) {
char *value = _nc_tic_expand(list[j], TRUE, 0);
_nc_warning("inconsistent suffix for %s, expected %c, have %c\n",
value, want, list[j][suffix]);
}
}
}
}
}
#define EXPECTED(name) if (!PRESENT(name)) _nc_warning("expected " #name)
#define UNEXPECTED(name) if (PRESENT(name)) _nc_warning("unexpected " #name ", for %s", why)
static void
check_noaddress(TERMTYPE2 *tp, const char *why)
{
UNEXPECTED(column_address);
UNEXPECTED(cursor_address);
UNEXPECTED(cursor_home);
UNEXPECTED(cursor_mem_address);
UNEXPECTED(cursor_to_ll);
UNEXPECTED(row_address);
UNEXPECTED(row_address);
}
static void
check_cursor(TERMTYPE2 *tp)
{
int count;
char *list[4];
if (hard_copy) {
check_noaddress(tp, "hard_copy");
} else if (generic_type) {
check_noaddress(tp, "generic_type");
} else if (strchr(tp->term_names, '+') == 0) {
int y = 0;
int x = 0;
if (PRESENT(column_address))
++y;
if (PRESENT(cursor_address))
y = x = 10;
if (PRESENT(cursor_home))
++y, ++x;
if (PRESENT(cursor_mem_address))
y = x = 10;
if (PRESENT(cursor_to_ll))
++y, ++x;
if (PRESENT(row_address))
++x;
if (PRESENT(cursor_down))
++y;
if (PRESENT(cursor_up))
++y;
if (PRESENT(cursor_left))
++x;
if (PRESENT(cursor_right))
++x;
if (x < 2 && y < 2) {
_nc_warning("terminal lacks cursor addressing");
} else {
if (x < 2)
_nc_warning("terminal lacks cursor column-addressing");
if (y < 2)
_nc_warning("terminal lacks cursor row-addressing");
}
}
/* it is rare to have an insert-line feature without a matching delete */
ANDMISSING(parm_insert_line, insert_line);
ANDMISSING(parm_delete_line, delete_line);
ANDMISSING(parm_insert_line, parm_delete_line);
/* if we have a parameterized form, then the non-parameterized is easy */
ANDMISSING(parm_down_cursor, cursor_down);
ANDMISSING(parm_up_cursor, cursor_up);
ANDMISSING(parm_left_cursor, cursor_left);
ANDMISSING(parm_right_cursor, cursor_right);
/* Given any of a set of cursor movement, the whole set should be present.
* Technically this is not true (we could use cursor_address to fill in
* unsupported controls), but it is likely.
*/
count = 0;
if (PRESENT(parm_down_cursor)) {
list[count++] = parm_down_cursor;
}
if (PRESENT(parm_up_cursor)) {
list[count++] = parm_up_cursor;
}
if (PRESENT(parm_left_cursor)) {
list[count++] = parm_left_cursor;
}
if (PRESENT(parm_right_cursor)) {
list[count++] = parm_right_cursor;
}
if (count == 4) {
check_ansi_cursor(list);
} else if (count != 0) {
EXPECTED(parm_down_cursor);
EXPECTED(parm_up_cursor);
EXPECTED(parm_left_cursor);
EXPECTED(parm_right_cursor);
}
count = 0;
if (PRESENT(cursor_down)) {
list[count++] = cursor_down;
}
if (PRESENT(cursor_up)) {
list[count++] = cursor_up;
}
if (PRESENT(cursor_left)) {
list[count++] = cursor_left;
}
if (PRESENT(cursor_right)) {
list[count++] = cursor_right;
}
if (count == 4) {
check_ansi_cursor(list);
} else if (count != 0) {
count = 0;
if (PRESENT(cursor_down) && strcmp(cursor_down, "\n"))
++count;
if (PRESENT(cursor_left) && strcmp(cursor_left, "\b"))
++count;
if (PRESENT(cursor_up) && strlen(cursor_up) > 1)
++count;
if (PRESENT(cursor_right) && strlen(cursor_right) > 1)
++count;
if (count) {
EXPECTED(cursor_down);
EXPECTED(cursor_up);
EXPECTED(cursor_left);
EXPECTED(cursor_right);
}
}
}
#define MAX_KP 5
/*
* Do a quick sanity-check for vt100-style keypads to see if the 5-key keypad
* is mapped inconsistently.
*/
static void
check_keypad(TERMTYPE2 *tp)
{
char show[80];
if (VALID_STRING(key_a1) &&
VALID_STRING(key_a3) &&
VALID_STRING(key_b2) &&
VALID_STRING(key_c1) &&
VALID_STRING(key_c3)) {
char final[MAX_KP + 1];
long list[MAX_KP];
int increase = 0;
int j, k, kk;
long last;
long test;
final[0] = keypad_final(key_a1);
final[1] = keypad_final(key_a3);
final[2] = keypad_final(key_b2);
final[3] = keypad_final(key_c1);
final[4] = keypad_final(key_c3);
final[5] = '\0';
/* special case: legacy coding using 1,2,3,0,. on the bottom */
assert(strlen(final) <= MAX_KP);
if (!strcmp(final, "qsrpn"))
return;
list[0] = keypad_index(key_a1);
list[1] = keypad_index(key_a3);
list[2] = keypad_index(key_b2);
list[3] = keypad_index(key_c1);
list[4] = keypad_index(key_c3);
/* check that they're all vt100 keys */
for (j = 0; j < MAX_KP; ++j) {
if (list[j] < 0) {
return;
}
}
/* check if they're all in increasing order */
for (j = 1; j < MAX_KP; ++j) {
if (list[j] > list[j - 1]) {
++increase;
}
}
if (increase != (MAX_KP - 1)) {
show[0] = '\0';
for (j = 0, last = -1; j < MAX_KP; ++j) {
for (k = 0, kk = -1, test = 100; k < 5; ++k) {
if (list[k] > last &&
list[k] < test) {
test = list[k];
kk = k;
}
}
last = test;
assert(strlen(show) < (MAX_KP * 4));
switch (kk) {
case 0:
_nc_STRCAT(show, " ka1", sizeof(show));
break;
case 1:
_nc_STRCAT(show, " ka3", sizeof(show));
break;
case 2:
_nc_STRCAT(show, " kb2", sizeof(show));
break;
case 3:
_nc_STRCAT(show, " kc1", sizeof(show));
break;
case 4:
_nc_STRCAT(show, " kc3", sizeof(show));
break;
}
}
_nc_warning("vt100 keypad order inconsistent: %s", show);
}
} else if (VALID_STRING(key_a1) ||
VALID_STRING(key_a3) ||
VALID_STRING(key_b2) ||
VALID_STRING(key_c1) ||
VALID_STRING(key_c3)) {
show[0] = '\0';
if (keypad_index(key_a1) >= 0)
_nc_STRCAT(show, " ka1", sizeof(show));
if (keypad_index(key_a3) >= 0)
_nc_STRCAT(show, " ka3", sizeof(show));
if (keypad_index(key_b2) >= 0)
_nc_STRCAT(show, " kb2", sizeof(show));
if (keypad_index(key_c1) >= 0)
_nc_STRCAT(show, " kc1", sizeof(show));
if (keypad_index(key_c3) >= 0)
_nc_STRCAT(show, " kc3", sizeof(show));
if (*show != '\0')
_nc_warning("vt100 keypad map incomplete:%s", show);
}
/*
* These warnings are useful for consistency checks - it is possible that
* there are real terminals with mismatches in these
*/
ANDMISSING(key_ic, key_dc);
}
static void
check_printer(TERMTYPE2 *tp)
{
(void) tp;
#if defined(enter_doublewide_mode) && defined(exit_doublewide_mode)
PAIRED(enter_doublewide_mode, exit_doublewide_mode);
#endif
#if defined(enter_italics_mode) && defined(exit_italics_mode)
PAIRED(enter_italics_mode, exit_italics_mode);
#endif
#if defined(enter_leftward_mode) && defined(exit_leftward_mode)
PAIRED(enter_leftward_mode, exit_leftward_mode);
#endif
#if defined(enter_micro_mode) && defined(exit_micro_mode)
PAIRED(enter_micro_mode, exit_micro_mode);
#endif
#if defined(enter_shadow_mode) && defined(exit_shadow_mode)
PAIRED(enter_shadow_mode, exit_shadow_mode);
#endif
#if defined(enter_subscript_mode) && defined(exit_subscript_mode)
PAIRED(enter_subscript_mode, exit_subscript_mode);
#endif
#if defined(enter_superscript_mode) && defined(exit_superscript_mode)
PAIRED(enter_superscript_mode, exit_superscript_mode);
#endif
#if defined(enter_upward_mode) && defined(exit_upward_mode)
PAIRED(enter_upward_mode, exit_upward_mode);
#endif
#if defined(start_char_set_def) && defined(stop_char_set_def)
ANDMISSING(start_char_set_def, stop_char_set_def);
#endif
/* if we have a parameterized form, then the non-parameterized is easy */
#if defined(set_bottom_margin_parm) && defined(set_bottom_margin)
ANDMISSING(set_bottom_margin_parm, set_bottom_margin);
#endif
#if defined(set_left_margin_parm) && defined(set_left_margin)
ANDMISSING(set_left_margin_parm, set_left_margin);
#endif
#if defined(set_right_margin_parm) && defined(set_right_margin)
ANDMISSING(set_right_margin_parm, set_right_margin);
#endif
#if defined(set_top_margin_parm) && defined(set_top_margin)
ANDMISSING(set_top_margin_parm, set_top_margin);
#endif
#if defined(parm_down_micro) && defined(micro_down)
ANDMISSING(parm_down_micro, micro_down);
#endif
#if defined(parm_left_micro) && defined(micro_left)
ANDMISSING(parm_left_micro, micro_left);
#endif
#if defined(parm_right_micro) && defined(micro_right)
ANDMISSING(parm_right_micro, micro_right);
#endif
#if defined(parm_up_micro) && defined(micro_up)
ANDMISSING(parm_up_micro, micro_up);
#endif
}
static bool
uses_SGR_39_49(const char *value)
{
return (strstr(value, "39;49") != 0
|| strstr(value, "49;39") != 0);
}
/*
* Check consistency of termcap extensions related to "screen".
*/
static void
check_screen(TERMTYPE2 *tp)
{
#if NCURSES_XNAMES
if (_nc_user_definable) {
int have_XT = tigetflag("XT");
int have_XM = tigetflag("XM");
int have_bce = back_color_erase;
bool have_kmouse = FALSE;
bool use_sgr_39_49 = FALSE;
char *name = _nc_first_name(tp->term_names);
bool is_screen = !strncmp(name, "screen", 6);
bool screen_base = (is_screen
&& strchr(name, '.') == 0);
if (!VALID_BOOLEAN(have_bce)) {
have_bce = FALSE;
}
if (!VALID_BOOLEAN(have_XM)) {
have_XM = FALSE;
}
if (!VALID_BOOLEAN(have_XT)) {
have_XT = FALSE;
}
if (VALID_STRING(key_mouse)) {
have_kmouse = !strcmp("\033[M", key_mouse);
}
if (VALID_STRING(orig_colors)) {
use_sgr_39_49 = uses_SGR_39_49(orig_colors);
} else if (VALID_STRING(orig_pair)) {
use_sgr_39_49 = uses_SGR_39_49(orig_pair);
}
if (have_XM && have_XT) {
_nc_warning("Screen's XT capability conflicts with XM");
} else if (have_XT && screen_base) {
_nc_warning("Screen's \"screen\" entries should not have XT set");
} else if (have_XT) {
if (!have_kmouse && is_screen) {
if (VALID_STRING(key_mouse)) {
_nc_warning("Value of kmous inconsistent with screen's usage");
} else {
_nc_warning("Expected kmous capability with XT");
}
}
if (!have_bce && max_colors > 0)
_nc_warning("Expected bce capability with XT");
if (!use_sgr_39_49 && have_bce && max_colors > 0)
_nc_warning("Expected orig_colors capability with XT to have 39/49 parameters");
if (VALID_STRING(to_status_line))
_nc_warning("\"tsl\" capability is redundant, given XT");
} else {
if (have_kmouse
&& !have_XM
&& !screen_base && strchr(name, '+') == 0) {
_nc_warning("Expected XT to be set, given kmous");
}
}
}
#endif
}
/*
* Returns the expected number of parameters for the given capability.
*/
static int
expected_params(const char *name)
{
#define DATA(name,count) { { name }, count }
/* *INDENT-OFF* */
static const struct {
const char name[9];
int count;
} table[] = {
DATA( "S0", 1 ), /* 'screen' extension */
DATA( "birep", 2 ),
DATA( "chr", 1 ),
DATA( "colornm", 1 ),
DATA( "cpi", 1 ),
DATA( "csnm", 1 ),
DATA( "csr", 2 ),
DATA( "cub", 1 ),
DATA( "cud", 1 ),
DATA( "cuf", 1 ),
DATA( "cup", 2 ),
DATA( "cuu", 1 ),
DATA( "cvr", 1 ),
DATA( "cwin", 5 ),
DATA( "dch", 1 ),
DATA( "defc", 3 ),
DATA( "dial", 1 ),
DATA( "dispc", 1 ),
DATA( "dl", 1 ),
DATA( "ech", 1 ),
DATA( "getm", 1 ),
DATA( "hpa", 1 ),
DATA( "ich", 1 ),
DATA( "il", 1 ),
DATA( "indn", 1 ),
DATA( "initc", 4 ),
DATA( "initp", 7 ),
DATA( "lpi", 1 ),
DATA( "mc5p", 1 ),
DATA( "mrcup", 2 ),
DATA( "mvpa", 1 ),
DATA( "pfkey", 2 ),
DATA( "pfloc", 2 ),
DATA( "pfx", 2 ),
DATA( "pfxl", 3 ),
DATA( "pln", 2 ),
DATA( "qdial", 1 ),
DATA( "rcsd", 1 ),
DATA( "rep", 2 ),
DATA( "rin", 1 ),
DATA( "sclk", 3 ),
DATA( "scp", 1 ),
DATA( "scs", 1 ),
DATA( "scsd", 2 ),
DATA( "setab", 1 ),
DATA( "setaf", 1 ),
DATA( "setb", 1 ),
DATA( "setcolor", 1 ),
DATA( "setf", 1 ),
DATA( "sgr", 9 ),
DATA( "sgr1", 6 ),
DATA( "slength", 1 ),
DATA( "slines", 1 ),
DATA( "smgbp", 1 ), /* 2 if smgtp is not given */
DATA( "smglp", 1 ),
DATA( "smglr", 2 ),
DATA( "smgrp", 1 ),
DATA( "smgtb", 2 ),
DATA( "smgtp", 1 ),
DATA( "tsl", 1 ),
DATA( "u6", -1 ),
DATA( "vpa", 1 ),
DATA( "wind", 4 ),
DATA( "wingo", 1 ),
};
/* *INDENT-ON* */
#undef DATA
unsigned n;
int result = 0; /* function-keys, etc., use none */
for (n = 0; n < SIZEOF(table); n++) {
if (!strcmp(name, table[n].name)) {
result = table[n].count;
break;
}
}
return result;
}
/*
* ncurses assumes that u6 could be used for getting the cursor-position, but
* that is not implemented. Make a special case for that, to quiet needless
* warnings.
*
* There are other string-capability extensions (see terminfo.src) which could
* have parameters such as "Ss", "%u", but are not used by ncurses.
*/
static int
is_user_capability(const char *name)
{
int result = -1;
if (name[0] == 'u' &&
(name[1] >= '0' && name[1] <= '9') &&
name[2] == '\0')
result = (name[1] == '6') ? 2 : 0;
return result;
}
/*
* Make a quick sanity check for the parameters which are used in the given
* strings. If there are no "%p" tokens, then there should be no other "%"
* markers.
*/
static void
check_params(TERMTYPE2 *tp, const char *name, char *value, int extended)
{
int expected = expected_params(name);
int actual = 0;
int n;
bool params[NUM_PARM];
char *s = value;
#ifdef set_top_margin_parm
if (!strcmp(name, "smgbp")
&& set_top_margin_parm == 0)
expected = 2;
#endif
for (n = 0; n < NUM_PARM; n++)
params[n] = FALSE;
while (*s != 0) {
if (*s == '%') {
if (*++s == '\0') {
_nc_warning("expected character after %% in %s", name);
break;
} else if (*s == 'p') {
if (*++s == '\0' || !isdigit((int) *s)) {
_nc_warning("expected digit after %%p in %s", name);
return;
} else {
n = (*s - '0');
if (n > actual)
actual = n;
params[n] = TRUE;
}
}
}
s++;
}
if (extended) {
if (actual > 0) {
_nc_warning("extended %s capability has %d parameters",
name, actual);
expected = actual;
}
}
if (params[0]) {
_nc_warning("%s refers to parameter 0 (%%p0), which is not allowed", name);
}
if (value == set_attributes || expected < 0) {
;
} else if (expected != actual) {
_nc_warning("%s uses %d parameters, expected %d", name,
actual, expected);
for (n = 1; n < actual; n++) {
if (!params[n])
_nc_warning("%s omits parameter %d", name, n);
}
}
/*
* Counting "%p" markers does not account for termcap expressions which
* may not have been fully translated. Also, tparm does its own analysis.
* Report differences here.
*/
if (actual >= 0) {
char *p_is_s[NUM_PARM];
int popcount;
int analyzed = _nc_tparm_analyze(value, p_is_s, &popcount);
if (analyzed < popcount) {
analyzed = popcount;
}
if (actual != analyzed && expected != analyzed) {
int user_cap = is_user_capability(name);
if ((user_cap == analyzed) && using_extensions) {
; /* ignore */
} else if (user_cap >= 0) {
_nc_warning("tparm will use %d parameters for %s",
analyzed, name);
} else {
_nc_warning("tparm analyzed %d parameters for %s, expected %d",
analyzed, name, actual);
}
}
}
}
static bool
line_capability(const char *name)
{
bool result = FALSE;
static const char *table[] =
{
"csr", /* change_scroll_region */
"clear", /* clear_screen */
"ed", /* clr_eos */
"cwin", /* create_window */
"cup", /* cursor_address */
"cud1", /* cursor_down */
"home", /* cursor_home */
"mrcup", /* cursor_mem_address */
"ll", /* cursor_to_ll */
"cuu1", /* cursor_up */
"dl1", /* delete_line */
"hd", /* down_half_line */
"flash", /* flash_screen */
"ff", /* form_feed */
"il1", /* insert_line */
"nel", /* newline */
"dl", /* parm_delete_line */
"cud", /* parm_down_cursor */
"indn", /* parm_index */
"il", /* parm_insert_line */
"rin", /* parm_rindex */
"cuu", /* parm_up_cursor */
"mc0", /* print_screen */
"vpa", /* row_address */
"ind", /* scroll_forward */
"ri", /* scroll_reverse */
"hu", /* up_half_line */
};
size_t n;
for (n = 0; n < SIZEOF(table); ++n) {
if (!strcmp(name, table[n])) {
result = TRUE;
break;
}
}
return result;
}
/*
* Check for DEC VT100 private mode for reverse video.
*/
static const char *
skip_DECSCNM(const char *value, int *flag)
{
*flag = -1;
if (value != 0) {
int skip = csi_length(value);
if (skip > 0 &&
value[skip++] == '?' &&
value[skip++] == '5') {
if (value[skip] == 'h') {
*flag = 1;
} else if (value[skip] == 'l') {
*flag = 0;
}
value += skip + 1;
}
}
return value;
}
static void
check_delays(TERMTYPE2 *tp, const char *name, const char *value)
{
const char *p, *q;
const char *first = 0;
const char *last = 0;
for (p = value; *p != '\0'; ++p) {
if (p[0] == '$' && p[1] == '<') {
const char *base = p + 2;
const char *mark = 0;
bool maybe = TRUE;
bool mixed = FALSE;
int proportional = 0;
int mandatory = 0;
first = p;
for (q = base; *q != '\0'; ++q) {
if (*q == '>') {
if (mark == 0)
mark = q;
break;
} else if (*q == '*' || *q == '/') {
if (*q == '*')
++proportional;
if (*q == '/')
++mandatory;
if (mark == 0)
mark = q;
} else if (!(isalnum(UChar(*q)) || strchr("+-.", *q) != 0)) {
maybe = FALSE;
break;
} else if (proportional || mandatory) {
mixed = TRUE;
}
}
last = *q ? (q + 1) : q;
if (*q == '\0') {
maybe = FALSE; /* just an isolated "$<" */
} else if (maybe) {
float check_f;
char check_c;
int rc = sscanf(base, "%f%c", &check_f, &check_c);
if ((rc != 2) || (check_c != *mark) || mixed) {
_nc_warning("syntax error in %s delay '%.*s'", name,
(int) (q - base), base);
} else if (*name == 'k') {
_nc_warning("function-key %s has delay", name);
} else if (proportional && !line_capability(name)) {
_nc_warning("non-line capability using proportional delay: %s", name);
} else if (!xon_xoff &&
!mandatory &&
strchr(_nc_first_name(tp->term_names), '+') == 0) {
_nc_warning("%s in %s is used since no xon/xoff",
(proportional
? "proportional delay"
: "delay"),
name);
}
} else {
p = q - 1; /* restart scan */
}
}
}
if (!strcmp(name, "flash") ||
!strcmp(name, "beep")) {
if (first != 0) {
if (first == value || *last == 0) {
/*
* Delay is on one end or the other.
*/
_nc_warning("expected delay embedded within %s", name);
}
} else {
int flag;
/*
* Check for missing delay when using VT100 reverse-video.
* A real VT100 might not need this, but terminal emulators do.
*/
if ((p = skip_DECSCNM(value, &flag)) != 0 &&
flag > 0 &&
(q = skip_DECSCNM(p, &flag)) != 0 &&
flag == 0) {
_nc_warning("expected a delay in %s", name);
}
}
}
}
static char *
check_1_infotocap(const char *name, NCURSES_CONST char *value, int count)
{
int k;
int ignored;
long numbers[1 + NUM_PARM];
char *strings[1 + NUM_PARM];
char *p_is_s[NUM_PARM];
char *result;
char blob[NUM_PARM * 10];
char *next = blob;
*next++ = '\0';
for (k = 1; k <= NUM_PARM; k++) {
numbers[k] = count;
_nc_SPRINTF(next,
_nc_SLIMIT(sizeof(blob) - (size_t) (next - blob))
"XYZ%d", count);
strings[k] = next;
next += strlen(next) + 1;
}
switch (tparm_type(name)) {
case Num_Str:
result = TPARM_2(value, numbers[1], strings[2]);
break;
case Num_Str_Str:
result = TPARM_3(value, numbers[1], strings[2], strings[3]);
break;
case Numbers:
default:
(void) _nc_tparm_analyze(value, p_is_s, &ignored);
#define myParam(n) (p_is_s[n - 1] != 0 ? ((TPARM_ARG) strings[n]) : numbers[n])
result = TPARM_9(value,
myParam(1),
myParam(2),
myParam(3),
myParam(4),
myParam(5),
myParam(6),
myParam(7),
myParam(8),
myParam(9));
break;
}
return result;
}
#define IsDelay(ch) ((ch) == '.' || isdigit(UChar(ch)))
static const char *
parse_delay_value(const char *src, double *delays, int *always)
{
int star = 0;
*delays = 0.0;
if (always)
*always = 0;
while (isdigit(UChar(*src))) {
(*delays) = (*delays) * 10 + (*src++ - '0');
}
if (*src == '.') {
int gotdot = 1;
++src;
while (isdigit(UChar(*src))) {
gotdot *= 10;
(*delays) += (*src++ - '0') / gotdot;
}
}
while (*src == '*' || *src == '/') {
if (always == 0 && *src == '/')
break;
if (*src++ == '*') {
star = 1;
} else {
*always = 1;
}
}
if (star)
*delays = -(*delays);
return src;
}
static const char *
parse_ti_delay(const char *ti, double *delays)
{
*delays = 0.0;
while (*ti != '\0') {
if (*ti == '\\') {
++ti;
}
if (ti[0] == '$'
&& ti[1] == '<'
&& IsDelay(UChar(ti[2]))) {
int ignored;
const char *last = parse_delay_value(ti + 2, delays, &ignored);
if (*last == '>') {
ti = last;
}
} else {
++ti;
}
}
return ti;
}
static const char *
parse_tc_delay(const char *tc, double *delays)
{
return parse_delay_value(tc, delays, (int *) 0);
}
/*
* Compare terminfo- and termcap-strings, factoring out delays.
*/
static bool
same_ti_tc(const char *ti, const char *tc, bool * embedded)
{
bool same = TRUE;
double ti_delay = 0.0;
double tc_delay = 0.0;
const char *ti_last;
*embedded = FALSE;
ti_last = parse_ti_delay(ti, &ti_delay);
tc = parse_tc_delay(tc, &tc_delay);
while ((ti < ti_last) && *tc) {
if (*ti == '\\' && ispunct(UChar(ti[1]))) {
++ti;
if ((*ti == '^') && !strncmp(tc, "\\136", 4)) {
ti += 1;
tc += 4;
continue;
}
} else if (ti[0] == '$' && ti[1] == '<') {
double no_delay;
const char *ss = parse_ti_delay(ti, &no_delay);
if (ss != ti) {
*embedded = TRUE;
ti = ss;
continue;
}
}
if (*tc == '\\' && ispunct(UChar(tc[1]))) {
++tc;
}
if (*ti++ != *tc++) {
same = FALSE;
break;
}
}
if (*embedded) {
if (same) {
same = FALSE;
} else {
*embedded = FALSE; /* report only one problem */
}
}
return same;
}
/*
* Check terminfo to termcap translation.
*/
static void
check_infotocap(TERMTYPE2 *tp, int i, const char *value)
{
const char *name = ExtStrname(tp, i, strnames);
int params = (((i < (int) SIZEOF(parametrized)) &&
(i < STRCOUNT))
? parametrized[i]
: ((*value == 'k')
? 0
: has_params(value)));
int to_char = 0;
char *ti_value;
char *tc_value;
bool embedded;
if ((ti_value = _nc_tic_expand(value, TRUE, to_char)) == ABSENT_STRING) {
_nc_warning("tic-expansion of %s failed", name);
} else if ((tc_value = _nc_infotocap(name, ti_value, params)) == ABSENT_STRING) {
_nc_warning("tic-conversion of %s failed", name);
} else if (params > 0) {
int limit = 5;
int count;
bool first = TRUE;
if (!strcmp(name, "setf")
|| !strcmp(name, "setb")
|| !strcmp(name, "setaf")
|| !strcmp(name, "setab")) {
limit = max_colors;
}
for (count = 0; count < limit; ++count) {
char *ti_check = check_1_infotocap(name, ti_value, count);
char *tc_check = check_1_infotocap(name, tc_value, count);
if (strcmp(ti_check, tc_check)) {
if (first) {
fprintf(stderr, "check_infotocap(%s)\n", name);
fprintf(stderr, "...ti '%s'\n", ti_value);
fprintf(stderr, "...tc '%s'\n", tc_value);
first = FALSE;
}
_nc_warning("tparm-conversion of %s(%d) differs between\n\tterminfo %s\n\ttermcap %s",
name, count, ti_check, tc_check);
}
}
} else if (params == 0 && !same_ti_tc(ti_value, tc_value, &embedded)) {
if (embedded) {
_nc_warning("termcap equivalent of %s cannot use embedded delay", name);
} else {
_nc_warning("tic-conversion of %s changed value\n\tfrom %s\n\tto %s",
name, ti_value, tc_value);
}
}
}
static char *
skip_delay(char *s)
{
while (*s == '/' || isdigit(UChar(*s)))
++s;
return s;
}
/*
* Skip a delay altogether, e.g., when comparing a simple string to sgr,
* the latter may have a worst-case delay on the end.
*/
static char *
ignore_delays(char *s)
{
int delaying = 0;
do {
switch (*s) {
case '$':
if (delaying == 0)
delaying = 1;
break;
case '<':
if (delaying == 1)
delaying = 2;
break;
case '\0':
delaying = 0;
break;
default:
if (delaying) {
s = skip_delay(s);
if (*s == '>')
++s;
delaying = 0;
}
break;
}
if (delaying)
++s;
} while (delaying);
return s;
}
#define DATA(name) { #name }
static const char sgr_names[][11] =
{
DATA(none),
DATA(standout),
DATA(underline),
DATA(reverse),
DATA(blink),
DATA(dim),
DATA(bold),
DATA(invis),
DATA(protect),
DATA(altcharset),
""
};
#undef DATA
/*
* An sgr string may contain several settings other than the one we're
* interested in, essentially sgr0 + rmacs + whatever. As long as the
* "whatever" is contained in the sgr string, that is close enough for our
* sanity check.
*/
static bool
similar_sgr(int num, char *a, char *b)
{
char *base_a = a;
char *base_b = b;
int delaying = 0;
while (*b != 0) {
while (*a != *b) {
if (*a == 0) {
if (num < 0) {
;
} else if (b[0] == '$'
&& b[1] == '<') {
_nc_warning("Did not find delay %s", _nc_visbuf(b));
} else {
_nc_warning("checking sgr(%s) %s\n\tcompare to %s\n\tunmatched %s",
sgr_names[num], _nc_visbuf2(1, base_a),
_nc_visbuf2(2, base_b),
_nc_visbuf2(3, b));
}
return FALSE;
} else if (delaying) {
a = skip_delay(a);
b = skip_delay(b);
} else if ((*b == '0' || (*b == ';')) && *a == 'm') {
b++;
} else {
a++;
}
}
switch (*a) {
case '$':
if (delaying == 0)
delaying = 1;
break;
case '<':
if (delaying == 1)
delaying = 2;
break;
default:
delaying = 0;
break;
}
a++;
b++;
}
/* ignore delays on the end of the string */
a = ignore_delays(a);
return ((num != 0) || (*a == 0));
}
static char *
check_sgr(TERMTYPE2 *tp, char *zero, int num, char *cap, const char *name)
{
char *test;
_nc_tparm_err = 0;
test = TPARM_9(set_attributes,
num == 1,
num == 2,
num == 3,
num == 4,
num == 5,
num == 6,
num == 7,
num == 8,
num == 9);
if (test != 0) {
if (PRESENT(cap)) {
if (!similar_sgr(num, test, cap)) {
_nc_warning("%s differs from sgr(%d)\n\t%s=%s\n\tsgr(%d)=%s",
name, num,
name, _nc_visbuf2(1, cap),
num, _nc_visbuf2(2, test));
}
} else if (_nc_capcmp(test, zero)) {
_nc_warning("sgr(%d) present, but not %s", num, name);
}
} else if (PRESENT(cap)) {
_nc_warning("sgr(%d) missing, but %s present", num, name);
}
if (_nc_tparm_err)
_nc_warning("stack error in sgr(%d) string", num);
return test;
}
#define CHECK_SGR(num,name) check_sgr(tp, zero, num, name, #name)
#ifdef TRACE
/*
* If tic is compiled with TRACE, we'll be able to see the output from the
* DEBUG() macro. But since it doesn't use traceon(), it always goes to
* the standard error. Use this function to make it simpler to follow the
* resulting debug traces.
*/
static void
show_where(unsigned level)
{
if (_nc_tracing >= DEBUG_LEVEL(level)) {
char my_name[MAX_NAME_SIZE];
_nc_get_type(my_name);
_tracef("\"%s\", line %d, '%s'",
_nc_get_source(),
_nc_curr_line, my_name);
}
}
#else
#define show_where(level) /* nothing */
#endif
typedef struct {
int keycode;
const char *name;
const char *value;
} NAME_VALUE;
static NAME_VALUE *
get_fkey_list(TERMTYPE2 *tp)
{
NAME_VALUE *result = typeMalloc(NAME_VALUE, NUM_STRINGS(tp) + 1);
const struct tinfo_fkeys *all_fkeys = _nc_tinfo_fkeys;
int used = 0;
unsigned j;
if (result == 0)
failed("get_fkey_list");
for (j = 0; all_fkeys[j].code; j++) {
char *a = tp->Strings[all_fkeys[j].offset];
if (VALID_STRING(a)) {
result[used].keycode = (int) all_fkeys[j].code;
result[used].name = strnames[all_fkeys[j].offset];
result[used].value = a;
++used;
}
}
#if NCURSES_XNAMES
for (j = STRCOUNT; j < NUM_STRINGS(tp); ++j) {
const char *name = ExtStrname(tp, (int) j, strnames);
if (*name == 'k') {
result[used].keycode = -1;
result[used].name = name;
result[used].value = tp->Strings[j];
++used;
}
}
#endif
result[used].keycode = 0;
return result;
}
static void
show_fkey_name(NAME_VALUE * data)
{
if (data->keycode > 0) {
fprintf(stderr, " %s", keyname(data->keycode));
fprintf(stderr, " (capability \"%s\")", data->name);
} else {
fprintf(stderr, " capability \"%s\"", data->name);
}
}
/*
* A terminal entry may contain more than one keycode assigned to a given
* string (e.g., KEY_END and KEY_LL). But curses will only return one (the
* last one assigned).
*/
static void
check_conflict(TERMTYPE2 *tp)
{
bool conflict = FALSE;
unsigned j, k;
if (!(_nc_syntax == SYN_TERMCAP && capdump)) {
char *check = calloc((size_t) (NUM_STRINGS(tp) + 1), sizeof(char));
NAME_VALUE *given = get_fkey_list(tp);
if (check == 0)
failed("check_conflict");
for (j = 0; given[j].keycode; ++j) {
const char *a = given[j].value;
bool first = TRUE;
if (!VALID_STRING(a))
continue;
for (k = j + 1; given[k].keycode; k++) {
const char *b = given[k].value;
if (!VALID_STRING(b))
continue;
if (check[k])
continue;
if (!_nc_capcmp(a, b)) {
check[j] = 1;
check[k] = 1;
if (first) {
if (!conflict) {
_nc_warning("Conflicting key definitions (using the last)");
conflict = TRUE;
}
fprintf(stderr, "...");
show_fkey_name(given + j);
fprintf(stderr, " is the same as");
show_fkey_name(given + k);
first = FALSE;
} else {
fprintf(stderr, ", ");
show_fkey_name(given + k);
}
}
}
if (!first)
fprintf(stderr, "\n");
}
#if NCURSES_XNAMES
if (using_extensions) {
/* *INDENT-OFF* */
static struct {
const char *xcurses;
const char *shifted;
} table[] = {
{ "kDC", NULL },
{ "kDN", "kind" },
{ "kEND", NULL },
{ "kHOM", NULL },
{ "kLFT", NULL },
{ "kNXT", NULL },
{ "kPRV", NULL },
{ "kRIT", NULL },
{ "kUP", "kri" },
{ NULL, NULL },
};
/* *INDENT-ON* */
/*
* SVr4 curses defines the "xcurses" names listed above except for
* the special cases in the "shifted" column. When using these
* names for xterm's extensions, that was confusing, and resulted
* in adding extended capabilities with "2" (shift) suffix. This
* check warns about unnecessary use of extensions for this quirk.
*/
for (j = 0; given[j].keycode; ++j) {
const char *find = given[j].name;
int value;
char ch;
if (!VALID_STRING(given[j].value))
continue;
for (k = 0; table[k].xcurses; ++k) {
const char *test = table[k].xcurses;
size_t size = strlen(test);
if (!strncmp(find, test, size) && strcmp(find, test)) {
switch (sscanf(find + size, "%d%c", &value, &ch)) {
case 1:
if (value == 2) {
_nc_warning("expected '%s' rather than '%s'",
(table[k].shifted
? table[k].shifted
: test), find);
} else if (value < 2 || value > 15) {
_nc_warning("expected numeric 2..15 '%s'", find);
}
break;
default:
_nc_warning("expected numeric suffix for '%s'", find);
break;
}
break;
}
}
}
}
#endif
free(given);
free(check);
}
}
/*
* Exiting a video mode should not duplicate sgr0
*/
static void
check_exit_attribute(const char *name, char *test, char *trimmed, char *untrimmed)
{
if (VALID_STRING(test) && (trimmed != 0)) {
if (similar_sgr(-1, trimmed, test) ||
similar_sgr(-1, untrimmed, test)) {
_nc_warning("%s matches exit_attribute_mode", name);
}
}
}
/*
* Returns true if the string looks like a standard SGR string.
*/
static bool
is_sgr_string(char *value)
{
bool result = FALSE;
if (VALID_STRING(value)) {
int skip = csi_length(value);
if (skip) {
int ch;
result = TRUE;
value += skip;
while ((ch = UChar(*value++)) != '\0') {
if (isdigit(ch) || ch == ';') {
;
} else if (ch == 'm' && *value == '\0') {
;
} else {
result = FALSE;
break;
}
}
}
}
return result;
}
/*
* Check if the given capability contains a given SGR attribute.
*/
static void
check_sgr_param(TERMTYPE2 *tp, int code, const char *name, char *value)
{
if (VALID_STRING(value)) {
int ncv = ((code != 0) ? (1 << (code - 1)) : 0);
char *test = tgoto(value, 0, 0);
if (is_sgr_string(test)) {
int param = 0;
int count = 0;
int skips = 0;
int color = (value == set_a_foreground ||
value == set_a_background ||
value == set_foreground ||
value == set_background);
while (*test != 0) {
if (isdigit(UChar(*test))) {
param = 10 * param + (*test - '0');
++count;
} else {
if (count) {
/*
* Avoid unnecessary warning for xterm 256color codes.
*/
if (color && (param == 38 || param == 48))
skips = 3;
if ((skips-- <= 0) && (param == code))
break;
}
count = 0;
param = 0;
}
++test;
}
if (count != 0 && param == code) {
if (code == 0 ||
no_color_video < 0 ||
!(no_color_video & ncv)) {
_nc_warning("\"%s\" SGR-attribute used in %s",
sgr_names[code],
name);
}
}
}
}
}
/* other sanity-checks (things that we don't want in the normal
* logic that reads a terminfo entry)
*/
static void
check_termtype(TERMTYPE2 *tp, bool literal)
{
unsigned j;
check_conflict(tp);
for_each_string(j, tp) {
char *a = tp->Strings[j];
if (VALID_STRING(a)) {
const char *name = ExtStrname(tp, (int) j, strnames);
/*
* If we expect parameters, or if there might be parameters,
* check for consistent number of parameters.
*/
if (j >= SIZEOF(parametrized) ||
is_user_capability(name) > 0 ||
parametrized[j] > 0) {
check_params(tp, name, a, (j >= STRCOUNT));
}
check_delays(tp, ExtStrname(tp, (int) j, strnames), a);
if (capdump) {
check_infotocap(tp, (int) j, a);
}
}
}
check_acs(tp);
check_colors(tp);
check_cursor(tp);
check_keypad(tp);
check_printer(tp);
check_screen(tp);
/*
* These may be mismatched because the terminal description relies on
* restoring the cursor visibility by resetting it.
*/
ANDMISSING(cursor_invisible, cursor_normal);
ANDMISSING(cursor_visible, cursor_normal);
if (PRESENT(cursor_visible) && PRESENT(cursor_normal)
&& !_nc_capcmp(cursor_visible, cursor_normal))
_nc_warning("cursor_visible is same as cursor_normal");
/*
* From XSI & O'Reilly, we gather that sc/rc are required if csr is
* given, because the cursor position after the scrolling operation is
* performed is undefined.
*/
ANDMISSING(change_scroll_region, save_cursor);
ANDMISSING(change_scroll_region, restore_cursor);
/*
* If we can clear tabs, we should be able to initialize them.
*/
ANDMISSING(clear_all_tabs, set_tab);
if (PRESENT(set_attributes)) {
char *zero = 0;
_nc_tparm_err = 0;
if (PRESENT(exit_attribute_mode)) {
zero = strdup(CHECK_SGR(0, exit_attribute_mode));
} else {
zero = strdup(TPARM_9(set_attributes, 0, 0, 0, 0, 0, 0, 0, 0, 0));
}
if (_nc_tparm_err)
_nc_warning("stack error in sgr(0) string");
if (zero != 0) {
CHECK_SGR(1, enter_standout_mode);
CHECK_SGR(2, enter_underline_mode);
CHECK_SGR(3, enter_reverse_mode);
CHECK_SGR(4, enter_blink_mode);
CHECK_SGR(5, enter_dim_mode);
CHECK_SGR(6, enter_bold_mode);
CHECK_SGR(7, enter_secure_mode);
CHECK_SGR(8, enter_protected_mode);
CHECK_SGR(9, enter_alt_charset_mode);
free(zero);
} else {
_nc_warning("sgr(0) did not return a value");
}
} else if (PRESENT(exit_attribute_mode) &&
set_attributes != CANCELLED_STRING) {
if (_nc_syntax == SYN_TERMINFO)
_nc_warning("missing sgr string");
}
#define CHECK_SGR0(name) check_exit_attribute(#name, name, check_sgr0, exit_attribute_mode)
if (PRESENT(exit_attribute_mode)) {
char *check_sgr0 = _nc_trim_sgr0(tp);
if (check_sgr0 == 0 || *check_sgr0 == '\0') {
_nc_warning("trimmed sgr0 is empty");
} else {
show_where(2);
if (check_sgr0 != exit_attribute_mode) {
DEBUG(2,
("will trim sgr0\n\toriginal sgr0=%s\n\ttrimmed sgr0=%s",
_nc_visbuf2(1, exit_attribute_mode),
_nc_visbuf2(2, check_sgr0)));
} else {
DEBUG(2,
("will not trim sgr0\n\toriginal sgr0=%s",
_nc_visbuf(exit_attribute_mode)));
}
}
#if defined(exit_italics_mode)
CHECK_SGR0(exit_italics_mode);
#endif
CHECK_SGR0(exit_standout_mode);
CHECK_SGR0(exit_underline_mode);
if (check_sgr0 != exit_attribute_mode) {
free(check_sgr0);
}
}
#define CHECK_SGR_PARAM(code, name) check_sgr_param(tp, (int)code, #name, name)
for (j = 0; *sgr_names[j] != '\0'; ++j) {
CHECK_SGR_PARAM(j, set_a_foreground);
CHECK_SGR_PARAM(j, set_a_background);
CHECK_SGR_PARAM(j, set_foreground);
CHECK_SGR_PARAM(j, set_background);
}
#ifdef TRACE
show_where(2);
if (!auto_right_margin) {
DEBUG(2,
("can write to lower-right directly"));
} else if (PRESENT(enter_am_mode) && PRESENT(exit_am_mode)) {
DEBUG(2,
("can write to lower-right by suppressing automargin"));
} else if ((PRESENT(enter_insert_mode) && PRESENT(exit_insert_mode))
|| PRESENT(insert_character) || PRESENT(parm_ich)) {
DEBUG(2,
("can write to lower-right by using inserts"));
} else {
DEBUG(2,
("cannot write to lower-right"));
}
#endif
/*
* Some standard applications (e.g., vi) and some non-curses
* applications (e.g., jove) get confused if we have both ich1 and
* smir/rmir. Let's be nice and warn about that, too, even though
* ncurses handles it.
*/
if ((PRESENT(enter_insert_mode) || PRESENT(exit_insert_mode))
&& PRESENT(parm_ich)) {
_nc_warning("non-curses applications may be confused by ich1 with smir/rmir");
}
/*
* Finally, do the non-verbose checks
*/
if (save_check_termtype != 0)
save_check_termtype(tp, literal);
}