Annotation of src/usr.bin/tmux/key-string.c, Revision 1.35
1.35 ! nicm 1: /* $OpenBSD: key-string.c,v 1.34 2016/01/19 15:59:12 nicm Exp $ */
1.1 nicm 2:
3: /*
1.34 nicm 4: * Copyright (c) 2007 Nicholas Marriott <nicholas.marriott@gmail.com>
1.1 nicm 5: *
6: * Permission to use, copy, modify, and distribute this software for any
7: * purpose with or without fee is hereby granted, provided that the above
8: * copyright notice and this permission notice appear in all copies.
9: *
10: * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
11: * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
12: * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
13: * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
14: * WHATSOEVER RESULTING FROM LOSS OF MIND, USE, DATA OR PROFITS, WHETHER
15: * IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING
16: * OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
17: */
18:
19: #include <sys/types.h>
20:
21: #include <string.h>
22:
23: #include "tmux.h"
24:
1.33 nicm 25: static key_code key_string_search_table(const char *);
26: static key_code key_string_get_modifiers(const char **);
1.1 nicm 27:
1.19 nicm 28: const struct {
1.14 nicm 29: const char *string;
1.28 nicm 30: key_code key;
1.1 nicm 31: } key_string_table[] = {
32: /* Function keys. */
33: { "F1", KEYC_F1 },
34: { "F2", KEYC_F2 },
35: { "F3", KEYC_F3 },
36: { "F4", KEYC_F4 },
37: { "F5", KEYC_F5 },
38: { "F6", KEYC_F6 },
39: { "F7", KEYC_F7 },
40: { "F8", KEYC_F8 },
41: { "F9", KEYC_F9 },
42: { "F10", KEYC_F10 },
43: { "F11", KEYC_F11 },
44: { "F12", KEYC_F12 },
45: { "IC", KEYC_IC },
46: { "DC", KEYC_DC },
47: { "Home", KEYC_HOME },
48: { "End", KEYC_END },
49: { "NPage", KEYC_NPAGE },
1.21 nicm 50: { "PageDown", KEYC_NPAGE },
51: { "PgDn", KEYC_NPAGE },
1.1 nicm 52: { "PPage", KEYC_PPAGE },
1.21 nicm 53: { "PageUp", KEYC_PPAGE },
54: { "PgUp", KEYC_PPAGE },
1.1 nicm 55: { "Tab", '\011' },
56: { "BTab", KEYC_BTAB },
1.7 nicm 57: { "Space", ' ' },
1.5 nicm 58: { "BSpace", KEYC_BSPACE },
1.6 nicm 59: { "Enter", '\r' },
60: { "Escape", '\033' },
1.1 nicm 61:
62: /* Arrow keys. */
63: { "Up", KEYC_UP },
64: { "Down", KEYC_DOWN },
65: { "Left", KEYC_LEFT },
66: { "Right", KEYC_RIGHT },
67:
68: /* Numeric keypad. */
1.9 nicm 69: { "KP/", KEYC_KP_SLASH },
70: { "KP*", KEYC_KP_STAR },
71: { "KP-", KEYC_KP_MINUS },
72: { "KP7", KEYC_KP_SEVEN },
73: { "KP8", KEYC_KP_EIGHT },
74: { "KP9", KEYC_KP_NINE },
75: { "KP+", KEYC_KP_PLUS },
76: { "KP4", KEYC_KP_FOUR },
77: { "KP5", KEYC_KP_FIVE },
78: { "KP6", KEYC_KP_SIX },
79: { "KP1", KEYC_KP_ONE },
80: { "KP2", KEYC_KP_TWO },
81: { "KP3", KEYC_KP_THREE },
82: { "KPEnter", KEYC_KP_ENTER },
83: { "KP0", KEYC_KP_ZERO },
84: { "KP.", KEYC_KP_PERIOD },
1.26 nicm 85:
86: /* Mouse keys. */
87: KEYC_MOUSE_STRING(MOUSEDOWN1, MouseDown1),
88: KEYC_MOUSE_STRING(MOUSEDOWN2, MouseDown2),
89: KEYC_MOUSE_STRING(MOUSEDOWN3, MouseDown3),
90: KEYC_MOUSE_STRING(MOUSEUP1, MouseUp1),
91: KEYC_MOUSE_STRING(MOUSEUP2, MouseUp2),
92: KEYC_MOUSE_STRING(MOUSEUP3, MouseUp3),
93: KEYC_MOUSE_STRING(MOUSEDRAG1, MouseDrag1),
94: KEYC_MOUSE_STRING(MOUSEDRAG2, MouseDrag2),
95: KEYC_MOUSE_STRING(MOUSEDRAG3, MouseDrag3),
96: KEYC_MOUSE_STRING(WHEELUP, WheelUp),
97: KEYC_MOUSE_STRING(WHEELDOWN, WheelDown),
1.1 nicm 98: };
99:
1.10 nicm 100: /* Find key string in table. */
1.33 nicm 101: static key_code
1.1 nicm 102: key_string_search_table(const char *string)
103: {
104: u_int i;
105:
106: for (i = 0; i < nitems(key_string_table); i++) {
107: if (strcasecmp(string, key_string_table[i].string) == 0)
108: return (key_string_table[i].key);
109: }
1.33 nicm 110: return (KEYC_UNKNOWN);
1.1 nicm 111: }
112:
1.14 nicm 113: /* Find modifiers. */
1.33 nicm 114: static key_code
1.14 nicm 115: key_string_get_modifiers(const char **string)
116: {
1.28 nicm 117: key_code modifiers;
1.14 nicm 118:
119: modifiers = 0;
120: while (((*string)[0] != '\0') && (*string)[1] == '-') {
121: switch ((*string)[0]) {
122: case 'C':
123: case 'c':
124: modifiers |= KEYC_CTRL;
125: break;
126: case 'M':
127: case 'm':
128: modifiers |= KEYC_ESCAPE;
129: break;
130: case 'S':
131: case 's':
132: modifiers |= KEYC_SHIFT;
133: break;
134: }
135: *string += 2;
136: }
137: return (modifiers);
138: }
139:
140: /* Lookup a string and convert to a key value. */
1.28 nicm 141: key_code
1.1 nicm 142: key_string_lookup_string(const char *string)
143: {
1.24 nicm 144: static const char *other = "!#()+,-.0123456789:;<=>?'\r\t";
1.28 nicm 145: key_code key;
1.24 nicm 146: u_short u;
1.32 nicm 147: int size;
1.28 nicm 148: key_code modifiers;
1.29 nicm 149: struct utf8_data ud;
1.28 nicm 150: u_int i;
1.32 nicm 151: enum utf8_state more;
1.35 ! nicm 152: wchar_t wc;
1.23 nicm 153:
1.33 nicm 154: /* Is this no key? */
155: if (strcasecmp(string, "None") == 0)
156: return (KEYC_NONE);
157:
1.23 nicm 158: /* Is this a hexadecimal value? */
159: if (string[0] == '0' && string[1] == 'x') {
160: if (sscanf(string + 2, "%hx%n", &u, &size) != 1 || size > 4)
1.33 nicm 161: return (KEYC_UNKNOWN);
1.23 nicm 162: return (u);
163: }
1.1 nicm 164:
1.14 nicm 165: /* Check for modifiers. */
166: modifiers = 0;
167: if (string[0] == '^' && string[1] != '\0') {
168: modifiers |= KEYC_CTRL;
169: string++;
170: }
171: modifiers |= key_string_get_modifiers(&string);
1.1 nicm 172: if (string[0] == '\0')
1.33 nicm 173: return (KEYC_UNKNOWN);
1.1 nicm 174:
1.14 nicm 175: /* Is this a standard ASCII key? */
1.28 nicm 176: if (string[1] == '\0' && (u_char)string[0] <= 127) {
177: key = (u_char)string[0];
178: if (key < 32 || key == 127)
1.33 nicm 179: return (KEYC_UNKNOWN);
1.17 nicm 180: } else {
1.28 nicm 181: /* Try as a UTF-8 key. */
1.32 nicm 182: if ((more = utf8_open(&ud, (u_char)*string)) == UTF8_MORE) {
1.29 nicm 183: if (strlen(string) != ud.size)
1.33 nicm 184: return (KEYC_UNKNOWN);
1.29 nicm 185: for (i = 1; i < ud.size; i++)
1.30 nicm 186: more = utf8_append(&ud, (u_char)string[i]);
1.32 nicm 187: if (more != UTF8_DONE)
1.33 nicm 188: return (KEYC_UNKNOWN);
1.35 ! nicm 189: if (utf8_combine(&ud, &wc) != UTF8_DONE)
! 190: return (KEYC_UNKNOWN);
! 191: return (wc | modifiers);
1.28 nicm 192: }
193:
1.17 nicm 194: /* Otherwise look the key up in the table. */
195: key = key_string_search_table(string);
1.33 nicm 196: if (key == KEYC_UNKNOWN)
197: return (KEYC_UNKNOWN);
1.17 nicm 198: }
1.12 nicm 199:
1.17 nicm 200: /* Convert the standard control keys. */
1.24 nicm 201: if (key < KEYC_BASE && (modifiers & KEYC_CTRL) && !strchr(other, key)) {
1.17 nicm 202: if (key >= 97 && key <= 122)
203: key -= 96;
204: else if (key >= 64 && key <= 95)
205: key -= 64;
206: else if (key == 32)
207: key = 0;
208: else if (key == 63)
209: key = KEYC_BSPACE;
210: else
1.33 nicm 211: return (KEYC_UNKNOWN);
1.17 nicm 212: modifiers &= ~KEYC_CTRL;
1.13 nicm 213: }
214:
1.14 nicm 215: return (key | modifiers);
1.1 nicm 216: }
217:
1.10 nicm 218: /* Convert a key code into string format, with prefix if necessary. */
1.1 nicm 219: const char *
1.28 nicm 220: key_string_lookup_key(key_code key)
1.1 nicm 221: {
1.28 nicm 222: static char out[24];
223: char tmp[8];
224: u_int i;
1.29 nicm 225: struct utf8_data ud;
1.14 nicm 226:
227: *out = '\0';
1.22 nicm 228:
229: /* Handle no key. */
230: if (key == KEYC_NONE)
1.33 nicm 231: return ("None");
232:
233: /* Handle special keys. */
234: if (key == KEYC_UNKNOWN)
235: return ("Unknown");
1.26 nicm 236: if (key == KEYC_MOUSE)
1.33 nicm 237: return ("Mouse");
1.14 nicm 238:
1.18 nicm 239: /*
240: * Special case: display C-@ as C-Space. Could do this below in
241: * the (key >= 0 && key <= 32), but this way we let it be found
242: * in key_string_table, for the unlikely chance that we might
243: * change its name.
244: */
245: if ((key & KEYC_MASK_KEY) == 0)
246: key = ' ' | KEYC_CTRL | (key & KEYC_MASK_MOD);
247:
1.14 nicm 248: /* Fill in the modifiers. */
249: if (key & KEYC_CTRL)
250: strlcat(out, "C-", sizeof out);
251: if (key & KEYC_ESCAPE)
252: strlcat(out, "M-", sizeof out);
253: if (key & KEYC_SHIFT)
254: strlcat(out, "S-", sizeof out);
1.18 nicm 255: key &= KEYC_MASK_KEY;
1.1 nicm 256:
1.14 nicm 257: /* Try the key against the string table. */
1.6 nicm 258: for (i = 0; i < nitems(key_string_table); i++) {
259: if (key == key_string_table[i].key)
1.14 nicm 260: break;
261: }
262: if (i != nitems(key_string_table)) {
263: strlcat(out, key_string_table[i].string, sizeof out);
264: return (out);
1.6 nicm 265: }
266:
1.28 nicm 267: /* Is this a UTF-8 key? */
268: if (key > 127 && key < KEYC_BASE) {
1.32 nicm 269: if (utf8_split(key, &ud) == UTF8_DONE) {
1.29 nicm 270: memcpy(out, ud.data, ud.size);
271: out[ud.size] = '\0';
1.28 nicm 272: return (out);
273: }
274: }
275:
1.14 nicm 276: /* Invalid keys are errors. */
1.27 nicm 277: if (key == 127 || key > 255) {
1.33 nicm 278: snprintf(out, sizeof out, "Invalid#%llx", key);
1.27 nicm 279: return (out);
280: }
1.1 nicm 281:
1.14 nicm 282: /* Check for standard or control key. */
1.28 nicm 283: if (key <= 32) {
1.1 nicm 284: if (key == 0 || key > 26)
1.28 nicm 285: xsnprintf(tmp, sizeof tmp, "C-%c", (int)(64 + key));
1.1 nicm 286: else
1.28 nicm 287: xsnprintf(tmp, sizeof tmp, "C-%c", (int)(96 + key));
1.14 nicm 288: } else if (key >= 32 && key <= 126) {
289: tmp[0] = key;
290: tmp[1] = '\0';
1.20 nicm 291: } else if (key >= 128)
1.28 nicm 292: xsnprintf(tmp, sizeof tmp, "\\%llo", key);
1.20 nicm 293:
1.14 nicm 294: strlcat(out, tmp, sizeof out);
295: return (out);
1.1 nicm 296: }