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Current Path : /usr/share/X11/xkb/symbols/ |
Linux gator3171.hostgator.com 4.19.286-203.ELK.el7.x86_64 #1 SMP Wed Jun 14 04:33:55 CDT 2023 x86_64 |
Current File : //usr/share/X11/xkb/symbols/cn |
// // Default Chinese is the same as American // default partial alphanumeric_keys xkb_symbols "basic" { include "us(basic)" name[Group1]= "Chinese"; }; // Tibetan Standard Keyboard map for XKB/X.org // // Based on the CNS Tibetan keyboard as supported by Windows Vista // using information published by Tashi Tsering: // http://www.yalasoo.com/English/docs/yalasoo_en_MStbKb.html // // XKB version by Rich Felker <dalias@aerifal.cx>. // // The CNS Tibetan keyboard standard specifies 5 keyboards worth of keys, // but apparently makes no requirements about how each is accessed. Only // the first 2 are needed for native Tibetan text; the remainder are // filled with special symbols and letters for transliterating foreign // text. Further, CNS leaves the level of support of keyboards 2-5 as an // option to the implementor (despite the fact that #2 is absolutely // essential...). Windows Vista maps them as follows: // // 1. Unshifted // 2. "m"-key-prefixed // 3. Shift-modified // 4. Ctrl+Alt+Shift-modified // 5. "M"-key-prefixed // // I roughly copy the Windows Vista mapping, which was intended by the // designer of the keyboard, with the following exceptions: // // The fifth keyboard is almost empty and contains only precomposed forms // of subjoined letter characters whose use is strongly discouraged, and // is not implemented at all in this XKB map. The fourth is implemented, // but is accessed by an "m"-prefix (or "M"-prefix, for convenience) // followed by a Shift-modified key. This avoids stealing the Ctrl and Alt // keys, which belong to applications on *nix and not to the keyboard or // input method. Aside from enterring rare special symbols and // foreign-word-transliteration letters, these differences should not // affect users. // // Implementation notes: // // A latching ISO Level3 shift is used for the "m"-prefix modifier. In // principle moving it to other keys (e.g. AltGr) would be possible // according to user preference, but this is not practical for typing // Tibetan, since the subjoined consonants, of which Tibetan has 0-2 per // syllable, are accessed via this mechanism. // // One annoyance is that the latching Level3 shift fails to work if the // previous key is not yet released when "m" is pressed (the key release // event kills the latch). I consider this a bug in X and don't know an // easy way to work around it. Complain to the maintainers if it bothers // you and maybe they'll find a fix. You won't notice it unless you're // fast at typing Tibetan anyway. partial alphanumeric_keys xkb_symbols "tib" { name[Group1]= "Tibetan"; key <TLDE> { [ 0x1000f68, 0x1000f01, 0x1000fb8, 0x1000f00 ] }; # ཨ ༁ ྸ ༀ key <AE01> { [ 0x1000f21, 0x1000f2a, 0x1000f04, 0x1000f76 ] }; # ༡ ༪ ༄ ྲྀ key <AE02> { [ 0x1000f22, 0x1000f2b, 0x1000f05, 0x1000f77 ] }; # ༢ ༫ ༅ ཷ key <AE03> { [ 0x1000f23, 0x1000f2c, 0x1000f7e, 0x1000f78 ] }; # ༣ ༬ ཾ ླྀ key <AE04> { [ 0x1000f24, 0x1000f2d, 0x1000f83, 0x1000f79 ] }; # ༤ ༭ ྃ ཹ key <AE05> { [ 0x1000f25, 0x1000f2e, 0x1000f37, 0x1000f81 ] }; # ༥ ༮ ༷ ཱྀ key <AE06> { [ 0x1000f26, 0x1000f2f, 0x1000f35, 0x1000f09 ] }; # ༦ ༯ ༵ ༉ key <AE07> { [ 0x1000f27, 0x1000f30, 0x1000f7f, 0x1000f0a ] }; # ༧ ༰ ཿ ༊ key <AE08> { [ 0x1000f28, 0x1000f31, 0x1000f14, 0x1000f0f ] }; # ༨ ༱ ༔ ༏ key <AE09> { [ 0x1000f29, 0x1000f32, 0x1000f11, 0x1000f10 ] }; # ༩ ༲ ༑ ༐ key <AE10> { [ 0x1000f20, 0x1000f33, 0x1000f08, 0x1000f12 ] }; # ༠ ༳ ༈ ༒ key <AE11> { [ 0x1000f67, 0x1000f3c, 0x1000fb7, 0x1000f0c ] }; # ཧ ༼ ྷ ༌ key <AE12> { [ 0x1000f5d, 0x1000f3d, 0x1000fba, 0x1000f13 ] }; # ཝ ༽ ྺ ༓ key <AD01> { [ 0x1000f45, 0x1000f15, 0x1000f95, 0x1000f89 ] }; # ཅ ༕ ྕ ྉ key <AD02> { [ 0x1000f46, 0x1000f16, 0x1000f96, 0x1000f88 ] }; # ཆ ༖ ྖ ྈ key <AD03> { [ 0x1000f7a, 0x1000f17, 0x1000f7b, 0x1000fbe ] }; # ེ ༗ ཻ ྾ key <AD04> { [ 0x1000f62, 0x1000fbc, 0x1000fb2, 0x1000f6a ] }; # ར ྼ ྲ ཪ key <AD05> { [ 0x1000f4f, 0x1000f4a, 0x1000f9f, 0x1000f9a ] }; # ཏ ཊ ྟ ྚ key <AD06> { [ 0x1000f61, 0x1000fbb, 0x1000fb1, 0x1000fbf ] }; # ཡ ྻ ྱ ྿ key <AD07> { [ 0x1000f74, 0x1000f18, 0x1000fad, 0x1000f75 ] }; # ུ ༘ ྭ ཱུ key <AD08> { [ 0x1000f72, 0x1000f19, 0x1000f80, 0x1000f73 ] }; # ི ༙ ྀ ཱི key <AD09> { [ 0x1000f7c, 0x1000f1a, 0x1000f7d, 0x1000fc0 ] }; # ོ ༚ ཽ ࿀ key <AD10> { [ 0x1000f55, 0x1000f1b, 0x1000fa5, 0x1000fc1 ] }; # ཕ ༛ ྥ ࿁ key <AD11> { [ 0x1000f59, 0x1000f1c, 0x1000fa9, 0x1000fc2 ] }; # ཙ ༜ ྩ ࿂ key <AD12> { [ 0x1000f5a, 0x1000f1d, 0x1000faa, 0x1000fc3 ] }; # ཚ ༝ ྪ ࿃ key <BKSL> { [ 0x1000f5b, 0x1000f1e, 0x1000fab, 0x1000f5c ] }; # ཛ ༞ ྫ ཛྷ key <AC01> { [ 0x1000f60, 0x1000f71, 0x1000fb0, 0x1000fc4 ] }; # འ ཱ ྰ ࿄ key <AC02> { [ 0x1000f66, 0x1000f1f, 0x1000fb6, 0x1000fc5 ] }; # ས ༟ ྶ ࿅ key <AC03> { [ 0x1000f51, 0x1000f4c, 0x1000fa1, 0x1000f9c ] }; # ད ཌ ྡ ྜ key <AC04> { [ 0x1000f56, 0x1000f3e, 0x1000fa6, 0x1000f57 ] }; # བ ༾ ྦ བྷ key <AC05> { [ 0x1000f44, 0x1000f3f, 0x1000f94, 0x1000fc6 ] }; # ང ༿ ྔ ࿆ key <AC06> { [ 0x1000f58, 0x1000fcf, 0x1000fa8, 0x1000fc7 ] }; # མ ࿏ ྨ ࿇ key <AC07> { [ 0x1000f0b, 0x1000f02, 0x1000f84, 0x1000fc8 ] }; # ་ ༂ ྄ ࿈ key <AC08> { [ 0x1000f42, 0x1000f03, 0x1000f92, 0x1000f43 ] }; # ག ༃ ྒ གྷ key <AC09> { [ 0x1000f63, 0x1000f06, 0x1000fb3, 0x1000fc9 ] }; # ལ ༆ ླ ࿉ key <AC10> { [ 0x1000f5e, 0x1000f07, 0x1000fae, 0x1000fca ] }; # ཞ ༇ ྮ ࿊ key <AC11> { [ 0x1000f0d, 0x1000f38, 0x1000f0e, 0x1000fcb ] }; # ། ༸ ༎ ࿋ key <AB01> { [ 0x1000f5f, 0x1000f34, 0x1000faf, 0x1000fcc ] }; # ཟ ༴ ྯ ࿌ key <AB02> { [ 0x1000f64, 0x1000f65, 0x1000fb4, 0x1000fb5 ] }; # ཤ ཥ ྴ ྵ key <AB03> { [ 0x1000f40, 0x1000f69, 0x1000f90, 0x1000fb9 ] }; # ཀ ཀྵ ྐ ྐྵ key <AB04> { [ 0x1000f41, 0x1000f87, 0x1000f91, 0x1000f36 ] }; # ཁ ྇ ྑ ༶ key <AB05> { [ 0x1000f54, 0x1000f86, 0x1000fa4, 0x1000f82 ] }; # པ ྆ ྤ ྂ key <AB06> { [ 0x1000f53, 0x1000f4e, 0x1000fa3, 0x1000f9e ] }; # ན ཎ ྣ ྞ key <AB07> { [ ISO_Level3_Latch, ISO_Level3_Latch, 0x1000f85, 0x1000f52 ] }; # -བཏགས་ ྅ དྷ key <AB08> { [ 0x1000f50, 0x1000f4b, 0x1000fa0, 0x1000f9b ] }; # ཐ ཋ ྠ ྛ key <AB09> { [ 0x1000f47, 0x1000f3a, 0x1000f97, 0x1000f8b ] }; # ཇ ༺ ྗ ྋ key <AB10> { [ 0x1000f49, 0x1000f3b, 0x1000f99, 0x1000f8a ] }; # ཉ ༻ ྙ ྊ }; // Tibetan Standard Keyboard with ASCII numerals // // Users may prefer that the numeral keys enter ASCII numerals instead of // Tibetan numerals, since the latter are not in modern use in Tibet. // This is especially an issue for laptop users who do not have a numeric // keypad by which to access the ASCII numerals, and who need to type // numbers to be interpreted by applications. // // In this mapping, the Shift-modified numeral keys generate Tibetan // numerals, since it was unclear to me that the standard Latin punctuation // keys would be any use without Latin letters. (One can imagine wanting to // type an email address using the @ sign, but as of present non-ASCII // email addresses are not possible.) This mapping may change in the future // if a clearly better use for the shifted numerals is pointed out by users. partial alphanumeric_keys xkb_symbols "tib_asciinum" { include "cn(tib)" name[Group1]= "Tibetan (with ASCII numerals)"; key <AE01> { [ 1, 0x1000f21, 0x1000f04, 0x1000f76 ] }; # 1 ༡ ༄ ྲྀ key <AE02> { [ 2, 0x1000f22, 0x1000f05, 0x1000f77 ] }; # 2 ༢ ༅ ཷ key <AE03> { [ 3, 0x1000f23, 0x1000f7e, 0x1000f78 ] }; # 3 ༣ ཾ ླྀ key <AE04> { [ 4, 0x1000f24, 0x1000f83, 0x1000f79 ] }; # 4 ༤ ྃ ཹ key <AE05> { [ 5, 0x1000f25, 0x1000f37, 0x1000f81 ] }; # 5 ༥ ༷ ཱྀ key <AE06> { [ 6, 0x1000f26, 0x1000f35, 0x1000f09 ] }; # 6 ༦ ༵ ༉ key <AE07> { [ 7, 0x1000f27, 0x1000f7f, 0x1000f0a ] }; # 7 ༧ ཿ ༊ key <AE08> { [ 8, 0x1000f28, 0x1000f14, 0x1000f0f ] }; # 8 ༨ ༔ ༏ key <AE09> { [ 9, 0x1000f29, 0x1000f11, 0x1000f10 ] }; # 9 ༩ ༑ ༐ key <AE10> { [ 0, 0x1000f20, 0x1000f08, 0x1000f12 ] }; # 0 ༠ ༈ ༒ }; // Uyghur Standard Keyboard Map for XKB/X.Org // // XKB version in collaboration by Muhemmed Abdullah <muhammad@yulghun.com>, // Abdussalam Abdurrahman <abdusalam.abdurahman@gmail.com>, and // Ekrem Tomur <ekrem.tomur@gmail.com> partial alphanumeric_keys xkb_symbols "ug" { include "us(basic)" name[Group1]= "Uyghur"; key <AE09> { [ 9, parenright ] }; // 9 ) key <AE10> { [ 0, parenleft ] }; // 0 ( key <AE11> { [ minus, 0x1002014 ] }; // - — key <AD01> { [ 0x1000686, VoidSymbol ] }; // چ key <AD02> { [ 0x10006cb, VoidSymbol ] }; // ۋ key <AD03> { [ 0x10006d0, VoidSymbol ] }; // ې key <AD04> { [ 0x1000631, VoidSymbol ] }; // ر key <AD05> { [ 0x100062a, VoidSymbol ] }; // ت key <AD06> { [ 0x100064a, VoidSymbol ] }; // ي key <AD07> { [ 0x10006c7, VoidSymbol ] }; // ۇ key <AD08> { [ 0x10006ad, VoidSymbol ] }; // ڭ key <AD09> { [ 0x1000648, VoidSymbol ] }; // و key <AD10> { [ 0x100067e, VoidSymbol ] }; // پ key <AD11> { [ bracketright, guillemotright ] }; // ] » key <AD12> { [ bracketleft, guillemotleft ] }; // [ « key <AC01> { [ 0x10006be, VoidSymbol ] }; // ھ key <AC02> { [ 0x1000633, VoidSymbol ] }; // س key <AC03> { [ 0x100062f, 0x1000698 ] }; // د ژ key <AC04> { [ 0x1000627, 0x1000641 ] }; // ا ف key <AC05> { [ 0x10006d5, 0x10006af ] }; // ە گ key <AC06> { [ 0x1000649, 0x100062e ] }; // ى خ key <AC07> { [ 0x1000642, 0x100062c ] }; // ق ج key <AC08> { [ 0x1000643, 0x10006c6 ] }; // ك ۆ key <AC09> { [ 0x1000644, VoidSymbol ] }; // ل key <AC10> { [ Arabic_semicolon, colon ] }; // ؛ : key <AB01> { [ 0x1000632, VoidSymbol ] }; // ز key <AB02> { [ 0x1000634, VoidSymbol ] }; // ش key <AB03> { [ 0x100063a, VoidSymbol ] }; // غ key <AB04> { [ 0x10006c8, VoidSymbol ] }; // ۈ key <AB05> { [ 0x1000628, VoidSymbol ] }; // ب key <AB06> { [ 0x1000646, VoidSymbol ] }; // ن key <AB07> { [ 0x1000645, VoidSymbol ] }; // م key <AB08> { [ Arabic_comma, 0x100203a ] }; // ، › key <AB09> { [ period, 0x1002039 ] }; // . ‹ key <AB10> { [ 0x1000626, Arabic_question_mark ] }; // ئ ؟ }; // Pinyin Keyboard, in the style of altgr-intl // // Chinese speakers and learners often find it hard to type Hanyu Pinyin // with all its tones and ü. This rule defines an altgr-intl-like behavior, // with dead keys activated by "AltGr + <key>". It also works with many // "pinyin" extensions, such as Tongyong Pinyin (Taiwan Mandarin) and // various SASM/GNC romanizations. // // Number row keys 1 2 3 4 are defined as dead-keys for the tones. // They correspond to the four tones in Hanyu Pinyin. // // To generate a · for "neutral" syllables, use AltGr + ` (grave). // To generate a raw ü, use AltGr + v. // V is used instead of ü for tones. // // AltGr+Shift+` triggers dead_abovering (˚), used by the Taiwanese // Tongyong Pinyin variant for the "neutral" tone. // // AltGr+6 triggers dead_circumflex (^) for ê ẑ ĉ ŝ, etc. // These can be stacked after tones to produce ế and ề; other tones require // combining characters, available through nobreakspace (AltGr+Space). // // AltGr+Shift+6 triggers dead_diaeresis (¨) for SASM/GNC // romanization of tib, mon, and ug. // // This file should be used with an appropriate XCompose file with // definitons for dead_{macron,acute,caron,grave} + a/e/i/o/u/v(ü). // --Mingye Wang <arthur200126@gmail.com> partial alphanumeric_keys xkb_symbols "altgr-pinyin" { include "us(basic)" name[Group1]= "Hanyu Pinyin (altgr)"; key <TLDE> { [ grave, asciitilde, periodcentered,dead_abovering ] }; key <AE01> { [ 1, exclam, dead_macron, macron ] }; key <AE02> { [ 2, at, dead_acute, acute ] }; key <AE03> { [ 3, numbersign, dead_caron, caron ] }; key <AE04> { [ 4, dollar, dead_grave, grave ] }; key <AE06> { [ 6, asciicircum, dead_circumflex, dead_diaeresis ] }; key <AB04> { [ v, V, udiaeresis, Udiaeresis ] }; key <SPCE> { [ space, space, nobreakspace, nobreakspace ] }; include "level3(ralt_switch)" };