freebsd-dev/contrib/ncurses/tack/fun.c

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/*
** Copyright (C) 1991, 1997 Free Software Foundation, Inc.
**
** This file is part of TACK.
**
** TACK is free software; you can redistribute it and/or modify
** it under the terms of the GNU General Public License as published by
** the Free Software Foundation; either version 2, or (at your option)
** any later version.
**
** TACK is distributed in the hope that it will be useful,
** but WITHOUT ANY WARRANTY; without even the implied warranty of
** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
** GNU General Public License for more details.
**
** You should have received a copy of the GNU General Public License
** along with TACK; see the file COPYING. If not, write to
** the Free Software Foundation, Inc., 59 Temple Place - Suite 330,
** Boston, MA 02111-1307, USA.
*/
#include <tack.h>
MODULE_ID("$Id: fun.c,v 1.2 1999/06/16 00:46:12 tom Exp $")
/*
* Test the function keys on the terminal. The code for echo tests
* lives here too.
*/
static void funkey_keys(struct test_list *, int *, int *);
static void funkey_meta(struct test_list *, int *, int *);
static void funkey_label(struct test_list *, int *, int *);
static void funkey_prog(struct test_list *, int *, int *);
static void funkey_local(struct test_list *, int *, int *);
struct test_list funkey_test_list[] = {
{0, 0, 0, 0, "e) edit terminfo", 0, &edit_menu},
{MENU_CLEAR + FLAG_FUNCTION_KEY, 0, 0, 0, "f) show a list of function keys", show_report, 0},
{MENU_NEXT | MENU_CLEAR, 0, "smkx) (rmkx", 0,
"k) test function keys", funkey_keys, 0},
{MENU_NEXT, 10, "km", "smm rmm", 0, funkey_meta, 0},
{MENU_NEXT, 8, "nlab) (smln) (pln) (rmln", "lw lh", 0, funkey_label, 0},
{MENU_NEXT, 2, "pfx", 0, 0, funkey_prog, 0},
{MENU_NEXT, 2, "pfloc", 0, 0, funkey_local, 0},
{MENU_LAST, 0, 0, 0, 0, 0, 0}
};
static void printer_on(struct test_list *, int *, int *);
static void printer_mc0(struct test_list *, int *, int *);
struct test_list printer_test_list[] = {
{0, 0, 0, 0, "e) edit terminfo", 0, &edit_menu},
{MENU_NEXT | MENU_CLEAR, 0, "mc4) (mc5) (mc5i", 0, 0, printer_on, 0},
{MENU_NEXT | MENU_CLEAR, 0, "mc0", 0, 0, printer_mc0, 0},
{MENU_LAST, 0, 0, 0, 0, 0, 0}
};
#define MAX_STRINGS STRCOUNT
/* scan code externals */
extern int scan_max; /* length of longest scan code */
extern char **scan_up, **scan_down, **scan_name;
extern int *scan_tested, *scan_length;
/* local definitions */
static const char *fk_name[MAX_STRINGS];
static char *fkval[MAX_STRINGS];
static char *fk_label[MAX_STRINGS]; /* function key labels (if any) */
static int fk_tested[MAX_STRINGS];
static int fkmax = 1; /* length of longest key */
static int got_labels = 0; /* true if we have some labels */
static int key_count = 0;
static int end_state;
/* unknown function keys */
#define MAX_FK_UNK 50
static char *fk_unknown[MAX_FK_UNK];
static int fk_length[MAX_FK_UNK];
static int funk;
/*
** keys_tested(first-time, show-help, hex-output)
**
** Display a list of the keys not tested.
*/
static void
keys_tested(
int first_time,
int show_help,
int hex_output)
{
int i, l;
char outbuf[256];
put_clear();
tty_set();
flush_input();
if (got_labels) {
putln("Function key labels:");
for (i = 0; i < key_count; ++i) {
if (fk_label[i]) {
sprintf(outbuf, "%s %s",
fk_name[i] ? fk_name[i] : "??", fk_label[i]);
put_columns(outbuf, strlen(outbuf), 16);
}
}
put_newlines(2);
}
if (funk) {
putln("The following keys are not defined:");
for (i = 0; i < funk; ++i) {
put_columns(fk_unknown[i], fk_length[i], 16);
}
put_mode(exit_attribute_mode);
put_newlines(2);
}
if (first_time) {
putln("The following keys are defined:");
} else {
putln("The following keys have not been tested:");
}
if (scan_mode) {
for (i = 0; scan_down[i]; i++) {
if (!scan_tested[i]) {
if (hex_output) {
strcpy(outbuf, hex_expand_to(scan_down[i], 3));
} else {
strcpy(outbuf, expand(scan_down[i]));
}
l = expand_chars;
if (hex_output) {
strcat(outbuf, hex_expand_to(scan_up[i], 3));
} else {
strcat(outbuf, expand(scan_up[i]));
}
expand_chars += l;
l = strlen(scan_name[i]);
if (((char_count + 16) & ~15) +
((expand_chars + 7) & ~7) + l >= columns) {
put_crlf();
} else
if (char_count + 24 > columns) {
put_crlf();
} else if (char_count) {
putchp(' ');
}
put_columns(outbuf, expand_chars, 16);
put_columns(scan_name[i], l, 8);
}
}
} else {
for (i = 0; i < key_count; i++) {
if (!fk_tested[i]) {
if (hex_output) {
strcpy(outbuf, hex_expand_to(fkval[i], 3));
} else {
strcpy(outbuf, expand(fkval[i]));
}
l = strlen(fk_name[i]);
if (((char_count + 16) & ~15) +
((expand_chars + 7) & ~7) + l >= columns) {
put_crlf();
} else
if (char_count + 24 > columns) {
put_crlf();
} else
if (char_count) {
putchp(' ');
}
put_columns(outbuf, expand_chars, 16);
put_columns(fk_name[i], l, 8);
}
}
}
put_newlines(2);
if (show_help) {
ptextln("Hit any function key. Type 'end' to quit. Type ? to update the display.");
put_crlf();
}
}
/*
** enter_key(name, value, label)
**
** Enter a function key into the data base
*/
void
enter_key(
const char *name,
char *value,
char *lab)
{
int j;
if (value) {
j = strlen(value);
fkmax = fkmax > j ? fkmax : j;
/* do not permit duplicates */
for (j = 0; j < key_count; j++) {
if (!strcmp(fk_name[j], name)) {
return;
}
}
fkval[key_count] = value;
fk_tested[key_count] = 0;
fk_label[key_count] = lab;
fk_name[key_count++] = name;
if (lab) {
got_labels = TRUE;
}
}
}
static void
fresh_line(void)
{ /* clear the line for a new fumction key line */
if (over_strike) {
put_crlf();
} else {
put_cr();
if (clr_eol) {
tc_putp(clr_eol);
} else {
put_str(" \r");
}
}
}
static int
end_funky(int ch)
{ /* return true if this is the end */
switch (ch) {
case 'e':
case 'E':
end_state = 'e';
break;
case 'n':
case 'N':
if (end_state == 'e') {
end_state = 'n';
} else {
end_state = 0;
}
break;
case 'd':
case 'D':
if (end_state == 'n') {
end_state = 'd';
} else {
end_state = 0;
}
break;
case 'l':
case 'L':
if (end_state == 'l') {
end_state = '?';
} else {
end_state = 'l';
}
break;
default:
end_state = 0;
break;
}
return end_state == 'd';
}
static int
found_match(char *s, int hx, int cc)
{ /* return true if this string is a match */
int j, f;
char outbuf[256];
if (!*s) {
return 0;
}
if (scan_mode) {
for (j = f = 0; scan_down[j]; j++) {
if (scan_length[j] == 0) {
continue;
}
if (!strncmp(s, scan_down[j], scan_length[j])) {
if (!f) { /* first match */
put_cr();
if (hx) {
put_str(hex_expand_to(s, 10));
} else {
put_str(expand_to(s, 10));
}
f = 1;
}
(void) end_funky(scan_name[j][0]);
put_str(" ");
put_str(scan_name[j]);
scan_tested[j] = 1;
s += scan_length[j];
if (strncmp(s, scan_up[j], scan_length[j])) {
put_str(" scan down");
} else {
s += scan_length[j];
}
if (!*s) {
break;
}
j = -1;
}
if (!strncmp(s, scan_up[j], scan_length[j])) {
if (!f) { /* first match */
put_cr();
if (hx) {
put_str(hex_expand_to(s, 10));
} else {
put_str(expand_to(s, 10));
}
f = 1;
}
put_str(" ");
put_str(scan_name[j]);
put_str(" scan up");
s += scan_length[j];
if (!*s) {
break;
}
j = -1;
}
}
} else {
for (j = f = 0; j < key_count; j++) {
if (!strcmp(s, fkval[j])) {
if (!f) { /* first match */
put_cr();
if (hx) {
put_str(hex_expand_to(s, 10));
} else {
put_str(expand_to(s, 10));
}
f = 1;
}
sprintf(outbuf, " (%s)", fk_name[j]);
put_str(outbuf);
if (fk_label[j]) {
sprintf(outbuf, " <%s>", fk_label[j]);
put_str(outbuf);
}
fk_tested[j] = 1;
}
}
}
if (end_state == '?') {
keys_tested(0, 1, hx);
tty_raw(cc, char_mask);
end_state = 0;
}
return f;
}
static int
found_exit(char *keybuf, int hx, int cc)
{ /* return true if the user wants to exit */
int j, k;
char *s;
if (scan_mode) {
if (*keybuf == '\0') {
return TRUE;
}
} else {
/* break is a special case */
if (*keybuf == '\0') {
fresh_line();
tty_set();
ptext("Hit X to exit: ");
if (wait_here() == 'X') {
return TRUE;
}
keys_tested(0, 1, hx);
tty_raw(cc, char_mask);
return FALSE;
}
/* is this the end? */
for (k = 0; (j = (keybuf[k] & STRIP_PARITY)); k++) {
if (end_funky(j)) {
return TRUE;
}
}
j = TRUE; /* does he need an updated list? */
for (k = 0; keybuf[k]; k++) {
j &= (keybuf[k] & STRIP_PARITY) == '?';
}
if (j || end_state == '?') {
keys_tested(0, 1, hx);
tty_raw(cc, char_mask);
end_state = 0;
return FALSE;
}
}
put_cr();
if (hx) {
s = hex_expand_to(keybuf, 10);
} else {
s = expand_to(keybuf, 10);
}
sprintf(temp, "%s Unknown", s);
put_str(temp);
for (j = 0; j < MAX_FK_UNK; j++) {
if (j == funk) {
fk_length[funk] = expand_chars;
if ((fk_unknown[funk] = (char *)malloc(strlen(s) + 1))) {
strcpy(fk_unknown[funk++], s);
}
break;
}
if (fk_length[j] == expand_chars) {
if (!strcmp(fk_unknown[j], s)) {
break;
}
}
}
return FALSE;
}
/*
** funkey_keys(test_list, status, ch)
**
** Test function keys
*/
static void
funkey_keys(
struct test_list *t,
int *state,
int *ch)
{
char keybuf[256];
if (keypad_xmit) {
tc_putp(keypad_xmit);
}
keys_tested(1, 1, hex_out); /* also clears screen */
keybuf[0] = '\0';
end_state = 0;
if (scan_mode) {
fkmax = scan_max;
}
tty_raw(0, char_mask);
while (end_state != 'd') {
read_key(keybuf, sizeof(keybuf));
fresh_line();
if (found_match(keybuf, hex_out, 0)) {
continue;
}
if (found_exit(keybuf, hex_out, 0)) {
break;
}
}
if (keypad_local) {
tc_putp(keypad_local);
}
keys_tested(0, 0, hex_out);
ptext("Function key test ");
generic_done_message(t, state, ch);
}
int
tty_meta_prep(void)
{ /* print a warning before the meta key test */
if (not_a_tty) {
return 0;
}
if (initial_stty_query(TTY_8_BIT)) {
return 0;
}
ptext("The meta key test must be run with the");
ptext(" terminal set for 8 data bits. Two stop bits");
ptext(" may also be needed for correct display. I will");
ptext(" transmit 8 bit data but if the terminal is set for");
ptextln(" 7 bit data, garbage may appear on the screen.");
return 1;
}
/*
** funkey_meta(test_list, status, ch)
**
** Test meta key (km) (smm) (rmm)
*/
static void
funkey_meta(
struct test_list *t,
int *state,
int *ch)
{
int i, j, k, len;
char outbuf[256];
if (has_meta_key) {
put_crlf();
if (char_mask != ALLOW_PARITY) {
if (tty_meta_prep()) {
ptext("\nHit any key to continue > ");
(void) wait_here();
put_crlf();
}
}
ptext("Begin meta key test. (km) (smm) (rmm) Hit any key");
ptext(" with the meta key. The character will be");
ptext(" displayed in hex. If the meta key is working");
ptext(" then the most significant bit will be set. Type");
ptextln(" 'end' to exit.");
tty_raw(1, ALLOW_PARITY);
tc_putp(meta_on);
for (i = j = k = len = 0; i != 'e' || j != 'n' || k != 'd';) {
i = j;
j = k;
k = getchp(ALLOW_PARITY);
if (k == EOF) {
break;
}
if ((len += 3) >= columns) {
put_crlf();
len = 3;
}
sprintf(outbuf, "%02X ", k);
put_str(outbuf);
k &= STRIP_PARITY;
}
tc_putp(meta_off);
put_crlf();
tty_set();
put_crlf();
} else {
ptext("(km) Has-meta-key is not set. ");
}
generic_done_message(t, state, ch);
}
/*
** funkey_label(test_list, status, ch)
**
** Test labels (nlab) (smln) (pln) (rmln) (lw) (lh)
*/
static void
funkey_label(
struct test_list *t,
int *state,
int *ch)
{
int i;
char outbuf[256];
if (num_labels == -1) {
ptextln("Your terminal has no labels. (nlab)");
} else {
sprintf(temp, "Your terminal has %d labels (nlab) that are %d characters wide (lw) and %d lines high (lh)",
num_labels, label_width, label_height);
ptext(temp);
ptextln(" Testing (smln) (pln) (rmln)");
if (label_on) {
tc_putp(label_on);
}
if (label_width <= 0) {
label_width = sizeof(outbuf) - 1;
}
for (i = 1; i <= num_labels; i++) {
sprintf(outbuf, "L%d..............................", i);
outbuf[label_width] = '\0';
tc_putp(tparm(plab_norm, i, outbuf));
}
if (label_off) {
ptext("Hit any key to remove the labels: ");
(void) wait_here();
tc_putp(label_off);
}
}
generic_done_message(t, state, ch);
}
/*
** funkey_prog(test_list, status, ch)
**
** Test program function keys (pfx)
*/
static void
funkey_prog(
struct test_list *t,
int *state,
int *ch)
{
int i, fk;
char mm[256];
fk = 1; /* use function key 1 for now */
if (pkey_xmit) {
/* test program function key */
sprintf(temp,
"(pfx) Set function key %d to transmit abc\\n", fk);
ptextln(temp);
tc_putp(tparm(pkey_xmit, fk, "abc\n"));
sprintf(temp, "Hit function key %d\n", fk);
ptextln(temp);
for (i = 0; i < 4; ++i)
mm[i] = getchp(STRIP_PARITY);
mm[i] = '\0';
put_crlf();
if (mm[0] != 'a' || mm[1] != 'b' || mm[2] != 'c') {
sprintf(temp, "Error string recieved was: %s", expand(mm));
ptextln(temp);
} else {
putln("Thank you\n");
}
flush_input();
if (key_f1) {
tc_putp(tparm(pkey_xmit, fk, key_f1));
}
} else {
ptextln("Function key transmit (pfx), not present.");
}
generic_done_message(t, state, ch);
}
/*
** funkey_local(test_list, status, ch)
**
** Test program local function keys (pfloc)
*/
static void
funkey_local(
struct test_list *t,
int *state,
int *ch)
{
int fk;
fk = 1;
if (pkey_local) {
/* test local function key */
sprintf(temp,
"(pfloc) Set function key %d to execute a clear and print \"Done!\"", fk);
ptextln(temp);
sprintf(temp, "%sDone!", liberated(clear_screen));
tc_putp(tparm(pkey_local, fk, temp));
sprintf(temp, "Hit function key %d. Then hit return.", fk);
ptextln(temp);
(void) wait_here();
flush_input();
if (key_f1 && pkey_xmit) {
tc_putp(tparm(pkey_xmit, fk, key_f1));
}
} else {
ptextln("Function key execute local (pfloc), not present.");
}
generic_done_message(t, state, ch);
}
/*
** printer_on(test_list, status, ch)
**
** Test printer on/off (mc4) (mc5) (mc5i)
*/
static void
printer_on(
struct test_list *t,
int *state,
int *ch)
{
if (!prtr_on || !prtr_off) {
ptextln("Printer on/off missing. (mc5) (mc4)");
} else if (prtr_silent) {
ptextln("Your printer is silent. (mc5i) is set.");
tc_putp(prtr_on);
ptextln("This line should be on the printer but not your screen. (mc5)");
tc_putp(prtr_off);
ptextln("This line should be only on the screen. (mc4)");
} else {
ptextln("Your printer is not silent. (mc5i) is reset.");
tc_putp(prtr_on);
ptextln("This line should be on the printer and the screen. (mc5)");
tc_putp(prtr_off);
ptextln("This line should only be on the screen. (mc4)");
}
generic_done_message(t, state, ch);
}
/*
** printer_mc0(test_list, status, ch)
**
** Test screen print (mc0)
*/
static void
printer_mc0(
struct test_list *t,
int *state,
int *ch)
{
if (print_screen) {
ptext("I am going to send the contents of the screen to");
ptext(" the printer, then wait for a keystroke from you.");
ptext(" All of the text that appears on the screen");
ptextln(" should be printed. (mc0)");
tc_putp(print_screen);
} else {
ptext("(mc0) Print-screen is not present. ");
}
generic_done_message(t, state, ch);
}
static void
line_pattern(void)
{ /* put up a pattern that will help count the
number of lines */
int i, j;
put_clear();
if (over_strike) {
for (i = 0; i < 100; i++) {
if (i) {
put_crlf();
}
for (j = i / 10; j; j--) {
put_this(' ');
}
put_this('0' + ((i + 1) % 10));
}
} else /* I assume it will scroll */ {
for (i = 100; i; i--) {
sprintf(temp, "\r\n%d", i);
put_str(temp);
}
}
}
static void
column_pattern(void)
{ /* put up a pattern that will help count the
number of columns */
int i, j;
put_clear();
for (i = 0; i < 20; i++) {
for (j = 1; j < 10; j++) {
put_this('0' + j);
}
put_this('.');
}
}
/*
** report_help()
**
** Print the help text for the echo tests
*/
static void
report_help(int crx)
{
ptextln("The following commands may also be entered:");
ptextln(" clear clear screen.");
ptextln(" columns print a test patterm to help count screen width.");
ptextln(" lines print a test patterm to help count screen length.");
ptextln(" end exit.");
ptextln(" echo redisplay last report.");
if (crx) {
ptextln(" hex redisplay last report in hex.");
} else {
ptextln(" hex toggle hex display mode.");
}
ptextln(" help display this list.");
ptextln(" high toggle forced high bit (0x80).");
ptextln(" scan toggle scan mode.");
ptextln(" one echo one character after <cr> or <lf> as is. (report mode)");
ptextln(" two echo two characters after <cr> or <lf> as is.");
ptextln(" all echo all characters after <cr> or <lf> as is. (echo mode)");
}
/*
** tools_report(testlist, state, ch)
**
** Run the echo tool and report tool
*/
void
tools_report(
struct test_list *t,
int *state GCC_UNUSED,
int *pch GCC_UNUSED)
{
int i, j, ch, crp, crx, high_bit, save_scan_mode, hex_display;
char buf[1024];
char txt[8];
hex_display = hex_out;
put_clear();
if ((crx = (t->flags & 255)) == 1) {
ptext("Characters after a CR or LF will be echoed as");
ptextln(" is. All other characters will be expanded.");
report_help(crx);
} else { /* echo test */
ptextln("Begin echo test.");
report_help(crx);
}
txt[sizeof(txt) - 1] = '\0';
save_scan_mode = scan_mode;
tty_raw(1, char_mask);
for (i = crp = high_bit = 0;;) {
ch = getchp(char_mask);
if (ch == EOF) {
break;
}
if (i >= (int) sizeof(buf) - 1) {
i = 0;
}
buf[i++] = ch;
buf[i] = '\0';
for (j = 0; j < (int) sizeof(txt) - 1; j++) {
txt[j] = txt[j + 1];
}
txt[sizeof(txt) - 1] = ch & STRIP_PARITY;
if (crx == 0) { /* echo test */
if (hex_display) {
ptext(hex_expand_to(&buf[i - 1], 3));
} else {
tc_putch(ch | high_bit);
}
} else /* status report test */
if (ch == '\n' || ch == '\r') {
put_crlf();
crp = 0;
} else if (crp++ < crx) {
tc_putch(ch | high_bit);
} else {
put_str(expand(&buf[i - 1]));
}
if (!strncmp(&txt[sizeof(txt) - 7], "columns", 7)) {
column_pattern();
buf[i = 0] = '\0';
crp = 0;
}
if (!strncmp(&txt[sizeof(txt) - 5], "lines", 5)) {
line_pattern();
buf[i = 0] = '\0';
crp = 0;
}
if (!strncmp(&txt[sizeof(txt) - 5], "clear", 5)) {
put_clear();
buf[i = 0] = '\0';
crp = 0;
}
if (!strncmp(&txt[sizeof(txt) - 4], "high", 4)) {
high_bit ^= 0x80;
if (high_bit) {
ptextln("\nParity bit set");
} else {
ptextln("\nParity bit reset");
}
}
if (!strncmp(&txt[sizeof(txt) - 4], "help", 4)) {
put_crlf();
report_help(crx);
}
if (!strncmp(&txt[sizeof(txt) - 4], "echo", 4)) {
/* display the last status report */
/* clear bypass condition on Tek terminals */
put_crlf();
if (i >= 4) {
buf[i -= 4] = '\0';
}
put_str(expand(buf));
}
if (save_scan_mode &&
!strncmp(&txt[sizeof(txt) - 4], "scan", 4)) {
/* toggle scan mode */
scan_mode = !scan_mode;
}
if (!strncmp(&txt[sizeof(txt) - 3], "end", 3))
break;
if (!strncmp(&txt[sizeof(txt) - 3], "hex", 3)) {
if (crx) {
/* display the last status report in hex */
/* clear bypass condition on Tek terminals */
put_crlf();
if (i >= 3) {
buf[i -= 3] = '\0';
}
put_str(hex_expand_to(buf, 3));
} else {
hex_display = !hex_display;
}
}
if (!strncmp(&txt[sizeof(txt) - 3], "two", 3))
crx = 2;
if (!strncmp(&txt[sizeof(txt) - 3], "one", 3))
crx = 1;
if (!strncmp(&txt[sizeof(txt) - 3], "all", 3))
crx = 0;
}
scan_mode = save_scan_mode;
put_crlf();
tty_set();
if (crx) {
ptextln("End of status report test.");
} else {
ptextln("End of echo test.");
}
}