alsa-utils/alsamixer/curskey.c

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#include <stdlib.h>
#include <string.h>
#include <stdint.h>
#include "curskey.h"
#include "utils.h"
#include "mem.h"
struct curskey_key {
char *keyname;
int keycode;
};
static struct curskey_key *keynames;
static unsigned int keynames_count;
unsigned int meta_keycode_start;
static uint64_t invalid_meta_char_mask[2];
// Names for non-printable/whitespace characters and aliases for existing keys
static const struct curskey_key keyname_aliases[] = {
// Sorted by `keyname`
{ "DEL", KEY_DEL },
{ "DELETE", KEY_DC },
{ "ENTER", '\n' },
{ "ENTER", '\r' },
{ "ESCAPE", KEY_ESCAPE },
{ "INSERT", KEY_IC },
{ "PAGEDOWN", KEY_NPAGE },
{ "PAGEUP", KEY_PPAGE },
{ "SPACE", KEY_SPACE },
{ "TAB", KEY_TAB }
};
#define STARTSWITH_KEY(S) \
((name[0] == 'K' || name[0] == 'k') && \
(name[1] == 'E' || name[1] == 'e') && \
(name[2] == 'Y' || name[2] == 'y') && \
(name[3] == '_'))
#define IS_META(S) \
((S[0] == 'M' || S[0] == 'm' || S[0] == 'A' || S[0] == 'a') && S[1] == '-')
static int curskey_key_cmp(const void *a, const void *b) {
return strcmp(((struct curskey_key*) a)->keyname,
((struct curskey_key*) b)->keyname);
}
static int curskey_find(const struct curskey_key *table, unsigned int size, const char *name) {
unsigned int start = 0;
unsigned int end = size;
unsigned int i;
int cmp;
while (1) {
i = (start+end) / 2;
cmp = strcasecmp(name, table[i].keyname);
if (cmp == 0)
return table[i].keycode;
else if (end == start + 1)
return ERR;
else if (cmp > 0)
start = i;
else
end = i;
}
}
/* Translate the name of a ncurses KEY_ constant to its value.
* "KEY_DOWN" -> 258
*
* Return ERR on failure.
*/
int curskey_keycode(const char *name)
{
int i;
if (! name)
return ERR;
if (STARTSWITH_KEY(name))
name += 4;
if (name[0] == 'F' || name[0] == 'f') {
i = (name[1] == '(' ? 2 : 1);
if (name[i] >= '0' && name[i] <= '9') {
i = atoi(name + i);
if (i >= 1 && i <= 63)
return KEY_F(i);
}
}
i = curskey_find(keyname_aliases, ARRAY_SIZE(keyname_aliases), name);
if (i != ERR)
return i;
return curskey_find(keynames, keynames_count, name);
}
static void free_ncurses_keynames() {
if (keynames) {
while (keynames_count)
free(keynames[--keynames_count].keyname);
free(keynames);
keynames = NULL;
}
}
/* Create the list of ncurses KEY_ constants and their names.
* Returns OK on success, ERR on failure.
*/
int create_ncurses_keynames() {
int key;
char *name;
free_ncurses_keynames();
keynames = ccalloc(sizeof(struct curskey_key), (KEY_MAX - KEY_MIN));
for (key = KEY_MIN; key != KEY_MAX; ++key) {
name = (char*) keyname(key);
if (!name || !STARTSWITH_KEY(name))
continue;
name += 4;
if (name[0] == 'F' && name[1] == '(')
continue; // ignore KEY_F(1),...
keynames[keynames_count].keycode = key;
keynames[keynames_count].keyname = cstrdup(name);
++keynames_count;
}
keynames = crealloc(keynames, keynames_count * sizeof(struct curskey_key));
qsort(keynames, keynames_count, sizeof(struct curskey_key), curskey_key_cmp);
return OK;
}
/* Defines meta escape sequences in ncurses.
*
* Some combinations with meta/alt may not be available since they collide
* with the prefix of a pre-defined key.
* For example, keys F1 - F4 begin with "\eO", so ALT-O cannot be defined.
*
* Returns OK if meta keys are available, ERR otherwise.
*/
int curskey_define_meta_keys(unsigned int keycode_start) {
#ifdef NCURSES_VERSION
int ch;
int keycode;
int new_keycode = keycode_start;
char key_sequence[3] = "\e ";
invalid_meta_char_mask[0] = 0;
invalid_meta_char_mask[1] = 0;
for (ch = 0; ch <= CURSKEY_MAX_META_CHAR; ++ch) {
key_sequence[1] = ch;
keycode = key_defined(key_sequence);
if (! keycode) {
define_key(key_sequence, new_keycode);
}
else if (keycode == new_keycode)
;
else
invalid_meta_char_mask[ch/65] |= (1UL << (ch % 64));
++new_keycode;
}
meta_keycode_start = keycode_start;
return OK;
#endif
return ERR;
}
/* Return the keycode for a key with modifiers applied.
*
* Available modifiers are:
* - CURSKEY_MOD_META / CURSKEY_MOD_ALT
* - CURSKEY_MOD_CNTRL
*
* See also the macros curskey_meta_key(), curskey_cntrl_key().
*
* Returns ERR if the modifiers cannot be applied to this key.
*/
int curskey_mod_key(int key, unsigned int modifiers) {
if (modifiers & CURSKEY_MOD_CNTRL) {
if ((key >= 'A' && key <= '_') || (key >= 'a' && key <= 'z') || key == ' ')
key = key % 32;
else
return ERR;
}
if (modifiers & CURSKEY_MOD_META) {
if (meta_keycode_start &&
(key >= 0 && key <= CURSKEY_MAX_META_CHAR) &&
! (invalid_meta_char_mask[key/65] & (1UL << (key % 64)))) {
key = meta_keycode_start + key;
}
else
return ERR;
}
return key;
}
/* Return the ncurses keycode for a key definition.
*
* Key definition may be:
* - Single character (a, z, ...)
* - Character with control-modifier (^x, C-x, c-x, ...)
* - Character with meta/alt-modifier (M-x, m-x, A-x, a-x, ...)
* - Character with both modifiers (C-M-x, M-C-x, M-^x, ...)
* - Curses keyname, no modifiers allowed (KEY_HOME, HOME, F1, F(1), ...)
*
* Returns ERR if either
* - The key definition is NULL or empty
* - The key could not be found ("KEY_FOO")
* - The key combination is invalid in general ("C-TAB", "C-RETURN")
* - The key is invalid because of compile time options (the
* `define_key()` function was not available.)
* - The key is invalid because it could not be defined by
* curskey_define_meta_keys()
*/
int curskey_parse(const char *def) {
int c;
unsigned int mod = 0;
if (! def)
return ERR;
for (;;) {
if (def[0] == '^' && def[1] != '\0') {
++def;
mod |= CURSKEY_MOD_CNTRL;
}
else if ((def[0] == 'C' || def[0] == 'c') && def[1] == '-') {
def += 2;
mod |= CURSKEY_MOD_CNTRL;
}
else if (IS_META(def)) {
if (! meta_keycode_start)
return ERR;
def += 2;
mod |= CURSKEY_MOD_ALT;
}
else
break;
}
if (*def == '\0')
return ERR;
else if (*(def+1) == '\0')
c = *def;
else
c = curskey_keycode(def);
return curskey_mod_key(c, mod);
}
/* Initialize curskey.
* Returns OK on success, ERR on failure. */
int curskey_init() {
keypad(stdscr, TRUE);
return create_ncurses_keynames();
}
/* Destroy curskey. */
void curskey_destroy() {
free_ncurses_keynames();
}