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#include "../config.h" |
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#include "rxvt.h" |
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|
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#ifdef KEYSYM_RESOURCE |
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|
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#include <cstring> |
7 |
|
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#include "keyboard.h" |
9 |
#include "command.h" |
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|
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//////////////////////////////////////////////////////////////////////////////// |
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// default keycode translation map and keyevent handlers |
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|
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keysym_t keyboard_manager::stock_keymap[] = { |
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/* examples */ |
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/* keysym, state, range, handler, str */ |
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//{XK_ISO_Left_Tab, 0, 1, NORMAL, "\033[Z"}, |
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//{ 'a', 0, 26, RANGE_META8, "a" "%c"}, |
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//{ 'a', ControlMask, 26, RANGE_META8, "" "%c"}, |
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//{ XK_Left, 0, 4, LIST, "DACBZ" "\033[Z"}, |
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//{ XK_Left, ShiftMask, 4, LIST, "dacbZ" "\033[Z"}, |
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//{ XK_Left, ControlMask, 4, LIST, "dacbZ" "\033OZ"}, |
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//{ XK_Tab, ControlMask, 1, NORMAL, "\033<C-Tab>"}, |
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//{ XK_apostrophe, ControlMask, 1, NORMAL, "\033<C-'>"}, |
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//{ XK_slash, ControlMask, 1, NORMAL, "\033<C-/>"}, |
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//{ XK_semicolon, ControlMask, 1, NORMAL, "\033<C-;>"}, |
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//{ XK_grave, ControlMask, 1, NORMAL, "\033<C-`>"}, |
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//{ XK_comma, ControlMask, 1, NORMAL, "\033<C-\054>"}, |
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//{ XK_Return, ControlMask, 1, NORMAL, "\033<C-Return>"}, |
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//{ XK_Return, ShiftMask, 1, NORMAL, "\033<S-Return>"}, |
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//{ ' ', ShiftMask, 1, NORMAL, "\033<S-Space>"}, |
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//{ '.', ControlMask, 1, NORMAL, "\033<C-.>"}, |
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//{ '0', ControlMask, 10, RANGE, "0" "\033<C-%c>"}, |
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//{ '0', MetaMask|ControlMask, 10, RANGE, "0" "\033<M-C-%c>"}, |
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//{ 'a', MetaMask|ControlMask, 26, RANGE, "a" "\033<M-C-%c>"}, |
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}; |
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|
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static void |
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output_string (rxvt_term *rt, const char *str) |
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{ |
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assert (rt && str); |
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|
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if (strncmp (str, "proto:", 6) == 0) |
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rt->cmd_write ((unsigned char *)str + 6, strlen (str) - 6); |
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else |
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rt->tt_write ((unsigned char *)str, strlen (str)); |
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} |
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|
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static void |
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output_string_meta8 (rxvt_term *rt, unsigned int state, char *buf, int buflen) |
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{ |
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if (state & rt->ModMetaMask) |
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{ |
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#ifdef META8_OPTION |
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if (rt->meta_char == 0x80) /* set 8-bit on */ |
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{ |
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for (char *ch = buf; ch < buf + buflen; ch++) |
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*ch |= 0x80; |
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} |
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else if (rt->meta_char == C0_ESC) /* escape prefix */ |
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#endif |
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{ |
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const unsigned char ch = C0_ESC; |
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rt->tt_write (&ch, 1); |
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} |
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} |
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|
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rt->tt_write ((unsigned char *) buf, buflen); |
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} |
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|
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static int |
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format_keyrange_string (const char *str, int keysym_offset, char *buf, int bufsize) |
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{ |
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size_t len = snprintf (buf, bufsize, str + 1, keysym_offset + str [0]); |
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|
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if (len >= (size_t)bufsize) |
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{ |
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rxvt_warn ("format_keyrange_string: formatting failed, ignoring key.\n"); |
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*buf = 0; |
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} |
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|
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return len; |
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} |
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|
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//////////////////////////////////////////////////////////////////////////////// |
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// return: #bits of '1' |
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#if __GNUC__ > 3 || (__GNUC__ == 3 && __GNUC_MINOR__ > 3) |
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# define bitcount(n) (__extension__ ({ uint32_t n__ = (n); __builtin_popcount (n); })) |
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#else |
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static int |
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bitcount (uint16_t n) |
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{ |
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int i; |
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|
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for (i = 0; n; ++i, n &= n - 1) |
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; |
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|
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return i; |
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} |
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#endif |
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|
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// return: priority_of_a - priority_of_b |
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static int |
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compare_priority (keysym_t *a, keysym_t *b) |
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{ |
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assert (a && b); |
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|
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// (the more '1's in state; the less range): the greater priority |
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int ca = bitcount (a->state /* & OtherModMask */); |
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int cb = bitcount (b->state /* & OtherModMask */); |
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|
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if (ca != cb) |
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return ca - cb; |
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//else if (a->state != b->state) // this behavior is to be disscussed |
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// return b->state - a->state; |
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else |
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return b->range - a->range; |
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} |
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|
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//////////////////////////////////////////////////////////////////////////////// |
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keyboard_manager::keyboard_manager () |
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{ |
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keymap.reserve (256); |
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hash [0] = 1; // hash[0] != 0 indicates uninitialized data |
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} |
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|
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keyboard_manager::~keyboard_manager () |
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{ |
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clear (); |
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} |
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|
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void |
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keyboard_manager::clear () |
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{ |
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keymap.clear (); |
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hash [0] = 2; |
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|
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for (unsigned int i = 0; i < user_translations.size (); ++i) |
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{ |
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free ((void *)user_translations [i]); |
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user_translations [i] = 0; |
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} |
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|
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for (unsigned int i = 0; i < user_keymap.size (); ++i) |
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{ |
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delete user_keymap [i]; |
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user_keymap [i] = 0; |
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} |
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|
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user_keymap.clear (); |
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user_translations.clear (); |
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} |
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|
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// a wrapper for register_keymap, |
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// so that outside codes don't have to know so much details. |
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// |
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// the string 'trans' is copied to an internal managed buffer, |
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// so the caller can free memory of 'trans' at any time. |
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void |
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keyboard_manager::register_user_translation (KeySym keysym, unsigned int state, const char *trans) |
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{ |
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assert (trans); |
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|
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keysym_t *key = new keysym_t; |
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wchar_t *wc = rxvt_mbstowcs (trans); |
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printf ("CONV <%s> %x %x %x %x\n", trans, (int)wc[0], (int)wc[1], (int)wc[2], (int)wc[3]); |
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const char *translation = rxvt_wcstoutf8 (wc); |
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free (wc); |
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|
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if (key && translation) |
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{ |
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key->keysym = keysym; |
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key->state = state; |
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key->range = 1; |
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key->str = translation; |
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key->type = keysym_t::NORMAL; |
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|
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if (strncmp (translation, "list", 4) == 0 && translation [4]) |
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{ |
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char *middle = strchr (translation + 5, translation [4]); |
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char *suffix = strrchr (translation + 5, translation [4]); |
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|
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if (suffix && middle && suffix > middle + 1) |
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{ |
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key->type = keysym_t::LIST; |
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key->range = suffix - middle - 1; |
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|
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strcpy (translation, translation + 4); |
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} |
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else |
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rxvt_warn ("cannot parse list-type keysym '%s', treating as normal keysym.\n", translation); |
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} |
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|
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user_keymap.push_back (key); |
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user_translations.push_back (translation); |
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register_keymap (key); |
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} |
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else |
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{ |
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delete key; |
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free ((void *)translation); |
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rxvt_fatal ("out of memory, aborting.\n"); |
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} |
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} |
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|
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void |
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keyboard_manager::register_keymap (keysym_t *key) |
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{ |
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assert (key); |
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assert (key->range >= 1); |
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|
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if (keymap.size () == keymap.capacity ()) |
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keymap.reserve (keymap.size () * 2); |
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|
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keymap.push_back (key); |
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hash[0] = 3; |
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} |
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|
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void |
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keyboard_manager::register_done () |
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{ |
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unsigned int i, n = sizeof (stock_keymap) / sizeof (keysym_t); |
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|
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if (keymap.back () != &stock_keymap[n - 1]) |
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for (i = 0; i < n; ++i) |
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register_keymap (&stock_keymap[i]); |
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|
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purge_duplicate_keymap (); |
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|
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setup_hash (); |
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} |
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|
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bool |
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keyboard_manager::dispatch (rxvt_term *term, KeySym keysym, unsigned int state) |
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{ |
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assert (hash[0] == 0 && "register_done() need to be called"); |
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|
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if (state & term->ModMetaMask) state |= MetaMask; |
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if (state & term->ModNumLockMask) state |= NumLockMask; |
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if (state & term->ModLevel3Mask) state |= Level3Mask; |
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|
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if (!!(term->priv_modes & PrivMode_aplKP) != !!(state & ShiftMask)) |
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state |= AppKeypadMask; |
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|
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int index = find_keysym (keysym, state); |
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|
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if (index >= 0) |
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{ |
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const keysym_t &key = *keymap [index]; |
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|
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int keysym_offset = keysym - key.keysym; |
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|
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wchar_t *wc = rxvt_utf8towcs (key.str); |
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|
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char *str = rxvt_wcstombs (wc); |
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// TODO: do translations, unescaping etc, here (allow \u escape etc.) |
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free (wc); |
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|
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switch (key.type) |
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{ |
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case keysym_t::NORMAL: |
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output_string (term, str); |
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break; |
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|
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case keysym_t::RANGE: |
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{ |
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char buf[STRING_MAX]; |
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|
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if (format_keyrange_string (str, keysym_offset, buf, sizeof (buf)) > 0) |
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output_string (term, buf); |
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} |
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break; |
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|
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case keysym_t::RANGE_META8: |
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{ |
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int len; |
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char buf[STRING_MAX]; |
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|
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len = format_keyrange_string (str, keysym_offset, buf, sizeof (buf)); |
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if (len > 0) |
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output_string_meta8 (term, state, buf, len); |
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} |
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break; |
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|
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case keysym_t::LIST: |
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{ |
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char buf[STRING_MAX]; |
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|
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char *prefix, *middle, *suffix; |
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|
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prefix = str; |
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middle = strchr (prefix + 1, *prefix); |
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suffix = strrchr (middle + 1, *prefix); |
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|
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memcpy (buf, prefix + 1, middle - prefix - 1); |
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buf [middle - prefix - 1] = middle [keysym_offset + 1]; |
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strcpy (buf + (middle - prefix), suffix + 1); |
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|
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output_string (term, buf); |
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} |
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break; |
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} |
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|
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free (str); |
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|
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return true; |
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} |
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else |
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{ |
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// fprintf(stderr,"[%x:%x]",state,keysym); |
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return false; |
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} |
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} |
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|
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// purge duplicate keymap entries |
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void keyboard_manager::purge_duplicate_keymap () |
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{ |
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for (unsigned int i = 0; i < keymap.size (); ++i) |
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{ |
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for (unsigned int j = 0; j < i; ++j) |
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{ |
322 |
if (keymap [i] == keymap [j]) |
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{ |
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while (keymap [i] == keymap.back ()) |
325 |
keymap.pop_back (); |
326 |
|
327 |
if (i < keymap.size ()) |
328 |
{ |
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keymap[i] = keymap.back (); |
330 |
keymap.pop_back (); |
331 |
} |
332 |
break; |
333 |
} |
334 |
} |
335 |
} |
336 |
} |
337 |
|
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void |
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keyboard_manager::setup_hash () |
340 |
{ |
341 |
unsigned int i, index, hashkey; |
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vector <keysym_t *> sorted_keymap; |
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uint16_t hash_budget_size[KEYSYM_HASH_BUDGETS]; // size of each budget |
344 |
uint16_t hash_budget_counter[KEYSYM_HASH_BUDGETS]; // #elements in each budget |
345 |
|
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memset (hash_budget_size, 0, sizeof (hash_budget_size)); |
347 |
memset (hash_budget_counter, 0, sizeof (hash_budget_counter)); |
348 |
|
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// count keysyms for corresponding hash budgets |
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for (i = 0; i < keymap.size (); ++i) |
351 |
{ |
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assert (keymap [i]); |
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hashkey = (keymap [i]->keysym & KEYSYM_HASH_MASK); |
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++hash_budget_size [hashkey]; |
355 |
} |
356 |
|
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// keysym A with range>1 is counted one more time for |
358 |
// every keysym B lies in its range |
359 |
for (i = 0; i < keymap.size (); ++i) |
360 |
{ |
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if (keymap[i]->range > 1) |
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{ |
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for (int j = min (keymap [i]->range, KEYSYM_HASH_BUDGETS) - 1; j > 0; --j) |
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{ |
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hashkey = ((keymap [i]->keysym + j) & KEYSYM_HASH_MASK); |
366 |
if (hash_budget_size [hashkey]) |
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++hash_budget_size [hashkey]; |
368 |
} |
369 |
} |
370 |
} |
371 |
|
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// now we know the size of each budget |
373 |
// compute the index of each budget |
374 |
hash [0] = 0; |
375 |
for (index = 0, i = 1; i < KEYSYM_HASH_BUDGETS; ++i) |
376 |
{ |
377 |
index += hash_budget_size [i - 1]; |
378 |
hash[i] = (hash_budget_size [i] ? index : hash [i - 1]); |
379 |
} |
380 |
|
381 |
// and allocate just enough space |
382 |
//sorted_keymap.reserve (hash[i - 1] + hash_budget_size[i - 1]); |
383 |
sorted_keymap.insert (sorted_keymap.begin (), index + hash_budget_size [i - 1], 0); |
384 |
|
385 |
// fill in sorted_keymap |
386 |
// it is sorted in each budget |
387 |
for (i = 0; i < keymap.size (); ++i) |
388 |
{ |
389 |
for (int j = min (keymap [i]->range, KEYSYM_HASH_BUDGETS) - 1; j >= 0; --j) |
390 |
{ |
391 |
hashkey = ((keymap [i]->keysym + j) & KEYSYM_HASH_MASK); |
392 |
|
393 |
if (hash_budget_size [hashkey]) |
394 |
{ |
395 |
index = hash [hashkey] + hash_budget_counter [hashkey]; |
396 |
|
397 |
while (index > hash [hashkey] |
398 |
&& compare_priority (keymap [i], sorted_keymap [index - 1]) > 0) |
399 |
{ |
400 |
sorted_keymap [index] = sorted_keymap [index - 1]; |
401 |
--index; |
402 |
} |
403 |
|
404 |
sorted_keymap [index] = keymap [i]; |
405 |
++hash_budget_counter [hashkey]; |
406 |
} |
407 |
} |
408 |
} |
409 |
|
410 |
keymap.swap (sorted_keymap); |
411 |
|
412 |
#if defined (DEBUG_STRICT) || defined (DEBUG_KEYBOARD) |
413 |
// check for invariants |
414 |
for (i = 0; i < KEYSYM_HASH_BUDGETS; ++i) |
415 |
{ |
416 |
index = hash[i]; |
417 |
for (int j = 0; j < hash_budget_size [i]; ++j) |
418 |
{ |
419 |
if (keymap [index + j]->range == 1) |
420 |
assert (i == (keymap [index + j]->keysym & KEYSYM_HASH_MASK)); |
421 |
|
422 |
if (j) |
423 |
assert (compare_priority (keymap [index + j - 1], |
424 |
keymap [index + j]) >= 0); |
425 |
} |
426 |
} |
427 |
|
428 |
// this should be able to detect most possible bugs |
429 |
for (i = 0; i < sorted_keymap.size (); ++i) |
430 |
{ |
431 |
keysym_t *a = sorted_keymap[i]; |
432 |
for (int j = 0; j < a->range; ++j) |
433 |
{ |
434 |
int index = find_keysym (a->keysym + j, a->state); |
435 |
|
436 |
assert (index >= 0); |
437 |
keysym_t *b = keymap [index]; |
438 |
assert (i == (signed) index || // the normally expected result |
439 |
(a->keysym + j) >= b->keysym && (a->keysym + j) <= (b->keysym + b->range) && compare_priority (a, b) <= 0); // is effectively the same |
440 |
} |
441 |
} |
442 |
#endif |
443 |
} |
444 |
|
445 |
int |
446 |
keyboard_manager::find_keysym (KeySym keysym, unsigned int state) |
447 |
{ |
448 |
int hashkey = keysym & KEYSYM_HASH_MASK; |
449 |
unsigned int index = hash [hashkey]; |
450 |
|
451 |
for (; index < keymap.size (); ++index) |
452 |
{ |
453 |
keysym_t *key = keymap [index]; |
454 |
assert (key); |
455 |
|
456 |
if (key->keysym <= keysym && key->keysym + key->range > keysym |
457 |
// match only the specified bits in state and ignore others |
458 |
&& (key->state & state) == key->state) |
459 |
return index; |
460 |
else if (key->keysym > keysym && key->range == 1) |
461 |
return -1; |
462 |
} |
463 |
|
464 |
return -1; |
465 |
} |
466 |
|
467 |
#endif /* KEYSYM_RESOURCE */ |
468 |
// vim:et:ts=2:sw=2 |